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-# About Electrochemistry Domain Ontology
-
-
-## Contributors
-
-* Simon Clark, SINTEF, Norway
-* Eibar Flores, SINTEF, Norway
-* Francesca Lønstad Bleken, SINTEF, Norway
-* Jesper Friis, SINTEF, Norway
-* Casper Welzel Andersen, SINTEF, Norway
-* Martin Uhrin, EPFL, Switzerland
-* Simon Stier, Fraunhofer, Germany
-* Marek Marcinek, Warsaw University of Technology, Poland
-* Anna Szczesna, Warsaw University of Technology, Poland
-* Miran Gaberscek, National Institute of Chemistry, Slovenia
-* Deyana Stoytcheva, ICMAB, Spain
-* Rosa Palacin, ICMAB, Spain
-* Ingeborg-Helene Svenum, SINTEF, Norway
-* Inga Gudem Ringdalen, SINTEF, Norway
-* Emanuele Farhi, SOLEIL synchrotron, France
-
-## Projects
-
-* [BIG-MAP](http://www.big-map.eu/); Grant Agreement No: 957189
-
-## License
-
-The Battery Interface Domain Ontology is released under the [Creative Commons Attribution 4.0 International](https://creativecommons.org/licenses/by/4.0/legalcode) license (CC BY 4.0).
-
-
-
-
-
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-# Contributing to the ontology
-
-There are two ways you can contribute to the ontology.
-
-### Suggest minor changes on existing elements
-
-[Create a feature request](https://github.com/emmo-repo/domain-electrochemistry/issues/new) in a [Github Issue](https://docs.github.com/en/issues/tracking-your-work-with-issues/creating-an-issue) to suggest edits to names, defintions, references on existing classes and properties.
-
-### Propose additions/deletion of elements
-
-> **_NOTE:_** We recommend contacting some of [BattINFO](https://github.com/BIG-MAP/BattINFO) contributors in advance to discuss which additions deletions you wish to make.
-
-We recommend using the [forking workflow](https://www.atlassian.com/git/tutorials/comparing-workflows/forking-workflow) to contribute additions/deletions.
-Fork this repository, clone the fork on your local PC, create your branch based on the existing `dev` branch (e.g. `dev_john_doe`) and work on the editions in you local copy.
-
-You can edit ontologes in two main ways.
-One is programmatically, using for instance [EMMOntoPy](https://github.com/emmo-repo/EMMOntoPy).
-The second and more common is using the interface provided by the Protégé software.
-In case of the latter, [install Protégé](https://protege.stanford.edu/) and use it to open the ontology file you wish to edit.
-Before adding elements, ensure Prot´égé is configured to create IRIs in the right format:
-
-* Open Protégé
-* Go to File/Open and load the ontology file you wish to modify
-* Go to File/Preferences and there go to the New Entities Tab
-* Ensure you have configured the preferences as shown below:
-
- 
- Here is the "Specified IRI" for you to copy: ```https://emmo.info/electrochemistry#```
-
-* Once you have made your changes, commit them to your fork and [create a pull request](https://docs.github.com/en/pull-requests/collaborating-with-pull-requests/proposing-changes-to-your-work-with-pull-requests/creating-a-pull-request).
-* We will merge the request after assessing it.
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-
-| [**About**](./about.html) | [**Contribute**](./contribute.html) | [](https://github.com/emmo-repo/domain-electrochemistry)
-
-An electrochemistry domain ontology developed in the [BIG-MAP][2] project.
-The ontology is a part of the [Battery Interface Domain Ontology (BattINFO)](https://big-map.github.io/BattINFO/).
-
-The ontology is based on [EMMO][1].
-
-The Electrochemistry Domain ontology is a digital resource to support interoperability of electrochemical data.
-
-This ontology consists of a list of entities representing concepts used in electrochemistry. Each entity has a unique identifier (IRI) and is annotated with additional information, such as its preferred name ("prefLabel"), alternative names, definition, references, etc. As users link their research resources to ontology entities, they are effectively describing their resource using a common vocabulary. Resources can be datasets, documents, persons, organizations, equipment, samples... anything linked to the common vocabulary described in this ontology, becomes part of an ecosystem of Findable resources.
-
-
-### [See list of entities](./electrochemistry.html)
-
-
-[1]: https://github.com/emmo-repo/EMMO
-[2]: https://www.big-map.eu
-
-
-
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-
-
-
-
-
- BattINFO
-
-
-
-
-
-
NOTE: We recommend contacting some of BattINFO contributors in advance to discuss which additions deletions you wish to make.
-
-
We recommend using the forking workflow to contribute additions/deletions.
-Fork this repository, clone the fork on your local PC, create your branch based on the existing dev branch (e.g. dev_john_doe) and work on the editions in you local copy.
-
You can edit ontologes in two main ways.
-One is programmatically, using for instance EMMOntoPy.
-The second and more common is using the interface provided by the Protégé software.
-In case of the latter, install Protégé and use it to open the ontology file you wish to edit.
-Before adding elements, ensure Prot´égé is configured to create IRIs in the right format:
-
-
Open Protégé
-
Go to File/Open and load the ontology file you wish to modify
-
Go to File/Preferences and there go to the New Entities Tab
-
Ensure you have configured the preferences as shown below:
-
-
- Here is the "Specified IRI" for you to copy: https://emmo.info/electrochemistry#
-
-
Once you have made your changes, commit them to your fork and create a pull request.
Elucidation: half of the peak-to-peak amplitude of a periodic voltage perturbation within a single time period, with respect to a reference potential value
Elucidation: faradaic current measured in a solution containing two electroactive substances, A and B, that exceeds the sum of the faradaic currents that would be obtained for A and B separately under the same experimental conditions
Elucidation: the fraction of the electrostatic potential energy affecting the reduction rate in an electrode reaction, with the remaining fraction affecting the corresponding oxidation rate
Elucidation: The concentration overpotential of an electrode reaction at a given electrode current density (c.d.) is basically the difference in equilibrium potentials across the diffusion layer. More precisely, it is the potential of a reference electrode (of the same electrode reaction as the working electrode ) with the interfacial concentrations which establish themselves at c.d., relative to the potential of a similar reference electrode with the concentrations of the bulk solution. From such a measured potential difference, with c.d. flowing, one needs to subtract the ohmic potential drop prevailing between the two electrodes.
Alternative Label(s): ConcentrationPolarization, MassTransferOverpotential, MassTransferPolarization
Elucidation: maximum electric current density that can be achieved for an electrode reaction at a given concentration of a electrochemically active material in the presence of a large excess of supporting electrolyte
Elucidation: faradaic current that is controlled by the rate at which electroactive species diffuse toward (or away from) and electrode-solution interface.
Elucidation: diffusion current of the potential-independent value that is approached as the rate of the charge-transfer process is increased by varying the applied potential, being greater than the rate of mass transport controlled by diffusion
Elucidation: the interfacial area, determined on the assumption that the interface is truly flat (2-dimensional) and calculated using the geometric data of the involved surfaces
Elucidation: surface area of an electrode that takes into account non-idealities of the interface (roughness, porosity, etc.) and can be measured by a variety of electrochemical methods
Elucidation: number of electrons transferred in a charge transfer reaction between an electrode and a single entity (ion, radical-ion, or molecule) of an electroactive substance, whose identity must be specified
Alternative Label(s): ChargeNumber, NumberOfElectronsTransferred
Elucidation: ratio of the electric energy provided from a secondary battery [ or electrochemical device ] during discharge to the electric energy supplied to the battery during the preceding charge
Elucidation: potential of an electrode when no electric current flows through the cell and all local charge transfer equilibria across phase boundaries that are represented in the cell diagram (except at possible electrolyte-electrolyte junctions) and local chemical equilibria are established
Alternative Label(s): EquilibriumPotential, NernstPotential, ReversiblePotential
Elucidation: defined by j0 = i0/A, where i0 is the exchange current of the electrode reaction and A is usually taken as the geometric area of the electrode
Elucidation: for dynamic voltammetric techniques, the electric potential of the working electrode at which the current is equal to one-half of the peak current
Elucidation: electric potential of a steady-state voltammetric working electrode at the point, on the rising part of the voltammetric wave, where the current is equal to one-half of the limiting current
Elucidation: electric potential of an ion-selective electrode (ISE) and activity of an analyte ion at which the potential of the ISE is independent of temperature
Elucidation: faradaic current of an electroactive substance B formed by a prior chemical reaction from another substance Y that is no electroactive at the potential at which B is electrochemically transformed
Elucidation: faradaic current that is approached as the rate of the charge-transfer process is increased by varying the applied potential, being greater than the rate of mass transport controlled by diffusion
Elucidation: electric potential difference between two solutions separated by an ion-selective membrane in the absence of any electric current flowing through the membrane
Alternative Label(s): DonnanPotential, MembraneElectromotiveForce
Elucidation: electrode potential of working electrode relative to the reference electrode when no potential or electric current is being applied to the electrochemical cell
Alternative Label(s): OCP, OCV, OpenCircuitPotential
Elucidation: in dynamic voltammetric techniques, the maximum value of the faradaic current attained by varying the applied potential in the current-potential or I-E curve
Elucidation: nominal property of an electrode, having values negative or positive according to the sign of the electrode potential, or neutral when the electrode potential is zero.
Elucidation: parameter defining the ability of an ion-selective electrode to distinguish a particular ion, i.e., a primary ion A from an interfering ion B
Alternative Label(s): SelectivityCoefficient, SelectivityConstant, SelectivityFactor
Elucidation: time interval during which the excitation signal deviates from the base line in normal pulse voltamme- try, differential pulse voltammetry, and related techniques
Elucidation: a single value, for instance a mean, root mean square or peak value characterizing the aggregate instantaneous values of a unidirectional pulse with respect to the common initial and final value
Elucidation: electric potential of the indicator electrode, in chronopotentiometry at constant current, at the instant when the time that has elapsed since the application of current is equal to one-fourth of the transition time
Elucidation: a proportionality constant which quantifies the rate and direction of a chemical reaction by relating it with the concentration of reactants
Elucidation: Electric current that flows, at a particular value of the applied potential, in the absence of the substance whose electrode behaviour is being investigated, i.e. a "blank" solution.
Elucidation: Duration between the time when an ion-selective electrode and an external reference electrode (the two completing the ion-selective electrode cell) are brought into contact with a sample solution (or the time at which the activity of the ion of interest in solution is changed) and the first time at which the slope of the cell potential vs. time plot (ΔE/Δt) becomes equal to a limiting value selected on the basis of the experimental conditions and/or requirements concerning accuracy.
Elucidation: duration, under specific conditions, at the end of which a battery [ or electrochemical device ] has retained the ability to perform a specified function
Elucidation: maximum current which should be delivered by a cell or battery into an external circuit with zero electric resistance, or an external circuit which depresses the cell or battery voltage to approximately zero volt
Elucidation: The potential of a working electrode relative to a reference electrode of the same kinds placed in the solution adjacent to the surface of the working electrode (just outside the double layer).
Elucidation: in chronopotentiometry and related techniques, the duration between the application of current and when the concentration of an electroactive substance at the electrode-solution interface becomes indistinguishable from zero
Elucidation: range of electrode potentials of a given working electrode in a given electrolyte, where the electric current from reactions of the electrode or electrolyte is negligible compared with the current from reactions of the system under investigation
Elucidation: voltammetry in which a sinusoidal alternating potential of small amplitude (10 to 50 mV) of constant frequency (10 Hz to 100 kHz) is superimposed on a slowly and linearly varying potential ramp
Elucidation: electrochemical method where traces of solid particles are abrasively transferred onto the surface of an electrode, followed by an electrochemical dissolution (anodic or cathodic dissolution) that is recorded as a current–voltage curve
Elucidation: periodic current where the amplitude alternates at a steady frequency between fixed minimum and maximum values, with the same duration at minimum and maximum
Elucidation: plots of the phase angle and the magnitude of the impedance vs. the logarithm of perturbation frequency at all the frequencies tested in an impedimetry measurement
Elucidation: accelerated charge applied at greater than normal values of electric currents or of voltages (for a particular design) during a short time interval
Elucidation: a phenomenological model for electrode kinetics, describing the relation between the electrode current from an electrochemical charge-transfer reaction and the surface overpotential of the electrode
Alternative Label(s): ButlerVolmerApproximation, ErdeyGruzVolmerEquation
Elucidation: a cycling protocol in which an electrochemical cell is first put through a CCCV charging process followed by a constant current discharge process
Elucidation: a degradation phenomena in electrochemical devices in which the practicaclly achieveable capacity of the cell is less than the measured capacity at the beginning of life.
Elucidation: internal component used to reduce the amount of electrolyte loss due to electrolyte spray being carried in the gas and/or by electrolyte movement
Elucidation: operation during which a secondary cell or battery is supplied with electric energy from an external circuit which results in chemical changes within the cell and thus the storage of energy as chemical energy.
Elucidation: plot of the time-dependent amount of electric charge passed through an electrochemical system due to the application of a electric potential
Alternative Label(s): ChargeTimeCurve, ElectricChargeTimeCurve, ElectricChargeTimePlot, QtCurve
Elucidation: direct coulometry at controlled potential in which the electric charge passed after the application of a potential step perturbation is measured as a function of time (Q-t curve)
Elucidation: electrochemical cell that has two half-cells separated by a wall permeable to ions, both containing the same electrolyte differing only in their ion concentrations
Elucidation: a two-step charging process in which a constant current is applied until a set upper cutoff voltage is reached and then the cell is potentiostatically held at that voltage until the current falls below some set threshhold value
Elucidation: titration in which the titrant is generated electrochemically, either by constant current or at constant potential. The titrant reacts stoichiometrically with the analyte, the amount of which is calculated using Faraday’s laws of electrolysis from the electric charge required to reach the end-point
Elucidation: electrochemical measurement principle in which the electric charge required to carry out a known electrochemical reaction is measured. By Faraday’s laws of electrolysis, the amount of substance is proportional to the charge
Elucidation: electrode whose function is to carry the electric current flowing through the electrical circuit of an electrochemical cell, the electrochemical processes on its surface not being of interest
Elucidation: rapid, transient change in the amplitude of an electric current, from a baseline value to a higer or lower value, followed by a rapid return to the baseline value.
Elucidation: voltammetry in which the electric current is recorded as the electrode potential is varied with time cycli- cally between two potential limits, normally at a constant scan rate
Elucidation: electrochemical measurement principle based on the measurement of the dielectric constant of a sample resulting from the orientation of particles (molecules or ions) that have a dipole moment in an electric field
Elucidation: voltammetry in which small potential pulses (constant height 10 to 100 mV, constant width 10 to 100 ms) are superimposed onto a linearly varying potential or onto a staircase potential ramp. The current is sampled just before the onset of the pulse (e.g. 10 to 20 ms) and for the same sampling time just before the end of the pulse. The difference between the two sampled currents is plotted versus the potential applied before the pulse. Thus, a differential pulse voltammogram is peak-shaped
Elucidation: a double layer of charges exists at the interface between two conducting media: One side carries a positive excess charge, which is balanced by a negative excess of equal magnitude on the other side.
Alternative Label(s): DL, EDL, ElectricalDoubleLayer
Elucidation: model representing the structure of an electrolyte at an electrode-electrolyte interface by a rigid layer formed by the charge carriers on the surface of the electrode and a diffuse layer formed by mobile ions in the electrolyte.
Alternative Label(s): ElectricalDoubleLayerModel, ElectricalPolarizationLayerModel
Elucidation: analytical methods in which electrochemical processes or phenomena are the core of the measurement principle involving electrochemical cells providing qualitative and quantitative responses.
Elucidation: a system containing two electrodes that allow transport of electrons, separated by an electrolyte that allows movement of ions but blocks movement of electrons.
Elucidation: electrochemical measurement method of the complex impedance of an electrochemical system as a function of the frequency of a small amplitude (normally 5 to 10 mV) sinusoidal voltage perturbation superimposed on a fixed value of applied potential or on the open circuit potential
Elucidation: a type of supercapacitor that uses metal oxide or conducting polymer electrodes with a high amount of electrochemical pseudocapacitance additional to the double-layer capacitance
Elucidation: a chemical reaction in an electrolyte involving a transfer of electrons between chemical components or between chemical components and an electrode
Alternative Label(s): ChargeTransferReaction, ChargeTransferReaction
Elucidation: electronically conductive part in electric contact with a medium of lower electronic conductivity and intended to perform one or more of the functions of emitting charge carriers to or receiving charge carriers from that medium or to establish an electric field in that medium
Elucidation: accumulation or depletion of electric charges at an electrode, resulting in a difference between the electrode potential with current flow, and the potential without current flow or equilibrium electrode potential
Alternative Label(s): ElectrodePolarization, Polarisation, Polarization
Elucidation: the process of forming a film or a bulk material using an electrochemical process where the electrons are supplied by an external power supply
Elucidation: method of electroanalytical chemistry used to separate by electrolyse ions of a substance and to derive the amount of this substance from the increase in mass of an electrode.
Elucidation: capacitor consisting of a metallic plate as first conductor, a very thin oxide film formed on the metal as the dielectric and an electrolyte as second conductor
Elucidation: when the same electric charge (quantity of electricity) Q is passed through several electrolytes, the mass, m_i, of the substances deposited are proportional to their respective chemical equivalent molar mass, M_i/z_i.
Elucidation: electrode made of glassy carbon material with an intertwined graphitic ribbon structure, formed by pyrolysis of a resol precursor at temperatures up to 3000 °C
Elucidation: an extension of the Helmholtz model that describes the distribution of ions as a function of distance from the electrode surface to the bulk of the electroylte
Elucidation: a modification of the Stern model that considers the double layer as three regions separated by the inner Helmholtz plane and the outer Helmholtz plane
Elucidation: a structural representation of the double layer that states that the accumulation of electric charge on the surface of the electrode is balanced by a layer of ions in the electrolyte
Elucidation: electrochemical method that measures the voltage response of an electrochemical cell under galvanostatic conditions to short interruptions in the current
Alternative Label(s): IntermittentCurrentInterruptionMethod
Elucidation: measurement principle in which the complex electric impedance of a system is measured, usually as a function of a small amplitude sinusoidal electrode potential
Elucidation: Pulses of electric potential, of amplitude increasing by a constant increment and with a pulse width of 2 to 200 ms, which are superimposed on a constant initial potential.
Elucidation: electrode that responds to one, or more than one, species in the solution being investigated, with no appreciable change of bulk solution composition during the measurement
Elucidation: a spatial region at the interface between two bulk phases in contact, which is different chemically and physically from both phases in contact
Elucidation: An ionic liquid is an electrolyte composed of a salt that is liquid below 100 °C. Ionic liquids have found uses in electrochemical analysis, because their unconventional properties include a negligible vapor pressure, a high thermal and electrochemical stability, and exceptional dissolution properties for both organic and inorganic chemical species.
Elucidation: For any electrolyte A_xB_y, the limiting molar conductivity is expressed as x times the limiting molar conductivity of A^{y+} and y times the limiting molar conductivity of B^{x-}.
Elucidation: ridges in the bottom of the case which support the plate pack (electrode stack) and thus create a space which allows the active material detached from the plates (electrodes) to settle without causing a short-circuit between the plates (electrodes)
Elucidation: An equation that relates the reduction potential of an electrochemical reaction (half-cell or full cell reaction) to the standard electrode potential, temperature, and activities (often approximated by concentrations) of the chemical species undergoing reduction and oxidation.
Elucidation: voltammetry in which potential pulses of amplitude increasing by a constant increment and with a pulse width of 2 to 200 ms are superimposed on a constant initial potential
Elucidation: arrangement of cells or batteries wherein all the positive terminals and all the negative terminals, respectively, are connected together.
Elucidation: porous electrodes consist of porous matrices of a single reactive electronic conductor or a mixture of solids that include essentially non-conducting, reactive materials in addition to electronic conductors. An electrolytic solution fills the void spaces of the porous matrix.
Elucidation: Rapid, transient change in the amplitude of an electric potential, from a baseline value to a higer or lower value, followed by a rapid return to the baseline value.
Elucidation: two-step electrochemical measurement in which 1) material is accumulated at an electrode and 2) the material is removed by chemical reaction or electrochemically at constant current with measurement of electrode potential
Elucidation: two-step electrochemical measurement in which 1) material is accumulated at an electrode and 2) the material is removed by chemical reaction or electrochemically at constant current with measurement of electrode potential. The time between changes in potential in step 2 is related to the concentration of analyte in the solution
Elucidation: Measuring instrument for electric current that controls the potential difference between a working electrode and a reference electrode and measures the electric current between a working electrode and an auxiliary electrode.
Elucidation: vent of special design which allows to release gas from a cell in order to avoid excessive internal pressure and thereby to preclude rupture or explosion of the cell container
Elucidation: DC polarography with current sampling at the end of each drop life mechanically enforced by a knocker at a preset drop time value. The current sampling and mechanical drop dislodge are synchronized.
Elucidation: solution which has the same concentration of a solute as one that is in equilibrium with undissolved solute at specified values of the temperature and pressure
Elucidation: in an electrochemical cell, device made of insulating material permeable to the ions of the electrolyte and prohibiting totally or partially the mixing of the substances on both sides.
Alternative Label(s): ElectrochemicalSeparator, ElectrochemicalSeparator
Elucidation: arrangement of cells or batteries wherein the positive terminal of each cell or battery is connected to the negative terminal of the next cell or battery in sequence.
Elucidation: an interphase formed when two materials with different chemical potentials are brought in contact with each other, and the atoms or electrons are unable to migrate to establish local charge neutrality
Alternative Label(s): DepletionLayer, DepletionRegion, DepletionZone, JunctionRegion, SpaceChargeRegion
Elucidation: component of a cell made of insulating material intended to maintain the spacing between plates of opposite polarity or between the plate pack and the case
Elucidation: Periodic potential where the amplitude alternates at a steady frequency between fixed minimum and maximum values, with the same duration at minimum and maximum.
Elucidation: for solutions in protic solvents, the universal reference electrode for which, under standard conditions, the standard electrode potential (H+ / H2) is zero at all temperatures
Elucidation: describes the double layer as divided into two parts separated by the Stern plane, located about one hydrated ion radius from the electrode surface
Elucidation: the symbolic representation of a chemical reaction in the form of symbols and formulae, wherein the reactant entities are given on the left-hand side and the product entities on the right-hand side
Alternative Label(s): ChemicalEquation, ChemicalReactionEquation
Elucidation: test carried out to measure the loss of capacity, open-circuit voltage, short-circuit current or other quantities after storage under specified conditions
Elucidation: two-step electrochemical measurement in which 1) material is accumulated at an electrode and 2) the amount of an accumulated species is measured by voltammetry. The measured electric current in step 2 is related to the concentration of analyte in the solution by calibration.
Elucidation: electrolyte solution, the ions of which are electroinactive in the range of applied potential being studied, and whose ionic strength (and, therefore, contribution to the overall conductivity) is usually much greater than the concentration of an electroactive substance to be dissolved in it.
Alternative Label(s): BaseElectrolyte, IndifferentElectrolyte, InertElectrolyte
Elucidation: conductive part of a device, electric circuit or electric network, provided for connecting that device, electric circuit or electric network to one or more external conductors
Elucidation: unstable condition arising during constant voltage charge in which the rate of heat dissipation capability, causing a continuous temperature increase with resulting further charge current increase, which can lead to the destruction of the battery
Elucidation: electrochemical cell that has two half-cells separated by a wall permeable to ions, both containing the same electrolyte differing only in their temperatures.
Elucidation: Linear ramp of electric potential, followed by a reversal to the initial potential. Both forward and reversed signal ramps are applied at the same scan rate.
Elucidation: positive plate (electrode) which is either composed of an assembly of porous tube of perforated metal or tissue either a gauntlet with or without a central current collector spine, the active material being placed within the tubes
Elucidation: charging method applied to a secondary battery using two levels of charge rate with feedback control to initiate the changeover from a high to a low charge rate
Elucidation: secondary cell having a cover provided with an opening through which products of electrolysis and evaporation are allowed to escape freely from the cell to the atmosphere
-
-
-
-
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-@prefix : .
-@prefix owl: .
-@prefix rdf: .
-@prefix xml: .
-@prefix xsd: .
-@prefix emmo: .
-@prefix rdfs: .
-@prefix skos: .
-@prefix chemsub: .
-@prefix dcterms: .
-@prefix annotations: .
-@base .
-
- rdf:type owl:Ontology ;
- owl:versionIRI ;
- owl:imports ,
- ;
- dcterms:abstract "The Electrochemistry Domain Ontology, a specialized domain within the Elementary Multiperspective Materials Ontology (EMMO), encompasses essential terms and relationships for electrochemical systems, materials, methods, and data. Its primary objective is to enable the creation of linked and FAIR (Findable, Accessible, Interoperable, and Reusable) data, thereby fostering advancements in research and innovation within the realm of electrochemistry. This ontology serves as a foundational resource for harmonizing electrochemical knowledge representation, enhancing data interoperability, and accelerating progress in electrochemical research and development."@en ;
- dcterms:contributor "Casper Welzel Andersen" ,
- "Francesca Lonstad Bleken" ,
- "Jesper Friis" ;
- dcterms:creator "Eibar Flores" ,
- "Simon Clark" ;
- dcterms:license "https://creativecommons.org/licenses/by/4.0/legalcode" ;
- rdfs:comment """Contacts:
-Simon Clark
-SINTEF Industry
-email: simon.clark@sintef.no
-
-Jesper Friis
-SINTEF Industry
-email: jesper.friis@sintef.no"""@en ;
- owl:versionInfo "0.7.0-alpha" .
-
-#################################################################
-# Object Properties
-#################################################################
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_0ac306fd_e98b_4af9_8cd6_5ed34f7f7d8a
-:electrochemistry_0ac306fd_e98b_4af9_8cd6_5ed34f7f7d8a rdf:type owl:ObjectProperty ;
- rdfs:subPropertyOf :electrochemistry_3bd08946_4e81_455d_9fca_dc7a5ead9315 ;
- rdfs:range :electrochemistry_fb0d9eef_92af_4628_8814_e065ca255d59 ;
- skos:prefLabel "hasAnolyte"@en .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_3bd08946_4e81_455d_9fca_dc7a5ead9315
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_3dcfe33d_6825_43c0_a798_68e871a68d39
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_578c41e9_ee01_4840_9c8c_04ab6e4e6241
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_5d299271_3f68_494f_ab96_3db9acdd3138
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_5eb197ea_0c3e_4ea2_8392_81152ee91515
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_860aa941_5ff9_4452_8a16_7856fad07bee
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_8e9cf965_9f92_46e8_b678_b50410ce3616
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_b62a6b15_236a_48bf_a323_ccbfc295f934
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-#################################################################
-# Classes
-#################################################################
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_01260656_ac32_472e_9513_a607366538ec
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_027d437e_3bbf_4eda_940b_e509f8d2b993
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_028069a2_4e03_409e_8af2_4c8df32b5c5e
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_02aefb7a_d6ce_4b6e_b854_f7b3d641f670
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_042d2282_bd2d_4874_b896_2d9dd06b54dd
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_0471ec77_91bc_4a78_be31_b6af613e5966
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- ] .
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_04f28ce3_251d_429e_aa85_ab3eb45bbcd2
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-[ rdf:type owl:Axiom ;
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- ] .
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-[ rdf:type owl:Axiom ;
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- ] .
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_0508a114_544a_4f54_a7de_9b947fb4b618
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- ] .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_057bb143_639c_472b_99ed_ffa1867f6e63
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-[ rdf:type owl:Axiom ;
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- ] .
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-[ rdf:type owl:Axiom ;
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- ] .
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-[ rdf:type owl:Axiom ;
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- ] .
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-[ rdf:type owl:Axiom ;
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- ] .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_0689e6fc_cda7_4e04_b1eb_41459a0a4736
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_06d8e1ee_924a_4915_998d_33a69f41dadc
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_06db7d9e_d224_4360_b926_734f0349d396
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- skos:altLabel "R59" ;
- skos:prefLabel "R726"@en .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_07ad0aff_ab59_442d_9c0a_7f8c5cba8982
-:electrochemistry_07ad0aff_ab59_442d_9c0a_7f8c5cba8982 rdf:type owl:Class ;
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- skos:prefLabel "Impedimetry"@en .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_0838f0b6_ca9a_4f76_9770_ca964617bf1b
-:electrochemistry_0838f0b6_ca9a_4f76_9770_ca964617bf1b rdf:type owl:Class ;
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- skos:altLabel "IntermittentCurrentInterruptionMethod"@en ;
- skos:prefLabel "ICI"@en .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_098690e3_9010_437e_8042_cee1656efa9b
-:electrochemistry_098690e3_9010_437e_8042_cee1656efa9b rdf:type owl:Class ;
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-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_09a7f560_9ddf_4c32_b067_b213eca5b0a1
-:electrochemistry_09a7f560_9ddf_4c32_b067_b213eca5b0a1 rdf:type owl:Class ;
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-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_09b9a369_2228_44bd_9b63_8abecfec8650
-:electrochemistry_09b9a369_2228_44bd_9b63_8abecfec8650 rdf:type owl:Class ;
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- skos:prefLabel "TriangularCurrentWaveform"@en .
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-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_09e64707_a17d_4405_84cc_ee9d91ed32ef
-:electrochemistry_09e64707_a17d_4405_84cc_ee9d91ed32ef rdf:type owl:Class .
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_0a03ce7e_d79f_412e_a103_b5d74de9f4d7
-:electrochemistry_0a03ce7e_d79f_412e_a103_b5d74de9f4d7 rdf:type owl:Class ;
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- skos:prefLabel "ElectricPotentialSignal"@en .
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-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_0a0de817_addc_46a5_8ba2_255d48cdf366
-:electrochemistry_0a0de817_addc_46a5_8ba2_255d48cdf366 rdf:type owl:Class ;
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- skos:prefLabel "ElectrochemicalDegradationPhenomenon"@en .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_0a5038d4_24af_4ea8_8d56_a156faeb98e2
-:electrochemistry_0a5038d4_24af_4ea8_8d56_a156faeb98e2 rdf:type owl:Class ;
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- skos:altLabel "R63" ;
- skos:prefLabel "R521"@en .
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-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_0acd0fc2_1048_4604_8e90_bf4e84bd87df
-:electrochemistry_0acd0fc2_1048_4604_8e90_bf4e84bd87df rdf:type owl:Class ;
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-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_0afe79ed_dc0d_4b3e_88fa_ae0c7b1e88b5
-:electrochemistry_0afe79ed_dc0d_4b3e_88fa_ae0c7b1e88b5 rdf:type owl:Class ;
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- rdfs:comment "electrode in which the active material is potassium"@en ;
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_0b1f77b8_2349_4433_b440_43dc84a2210f
-:electrochemistry_0b1f77b8_2349_4433_b440_43dc84a2210f rdf:type owl:Class ;
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- skos:prefLabel "AbrasiveStrippingVoltammetry"@en .
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-[ rdf:type owl:Axiom ;
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- dcterms:source "Scholz F, Nitschke L, Henrion G (1989) Naturwiss 76:71;"
- ] .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_0bf1ed19_2fc9_4e6d_87ec_62015985a9a6
-:electrochemistry_0bf1ed19_2fc9_4e6d_87ec_62015985a9a6 rdf:type owl:Class .
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_0c09df01_b251_4f75_b6e3_2578ba1a10c9
-:electrochemistry_0c09df01_b251_4f75_b6e3_2578ba1a10c9 rdf:type owl:Class ;
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- skos:altLabel "R41" ,
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-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_0c9017b4_6efd_4e2b_8e24_48b60ebe9315
-:electrochemistry_0c9017b4_6efd_4e2b_8e24_48b60ebe9315 rdf:type owl:Class ;
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-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_0cc8f231_0ce5_467e_9c76_29b2c80349ad
-:electrochemistry_0cc8f231_0ce5_467e_9c76_29b2c80349ad rdf:type owl:Class ;
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- skos:altLabel "CCCV"@en ;
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-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_0d3e8340_4229_4fd3_b6dd_763bd566551d
-:electrochemistry_0d3e8340_4229_4fd3_b6dd_763bd566551d rdf:type owl:Class ;
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-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_0d9ba00d_04bc_4bdc_85af_3380694f6f68
-:electrochemistry_0d9ba00d_04bc_4bdc_85af_3380694f6f68 rdf:type owl:Class ;
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-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_0e33278b_639f_412d_9abd_64c3790026ef
-:electrochemistry_0e33278b_639f_412d_9abd_64c3790026ef rdf:type owl:Class ;
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-[ rdf:type owl:Axiom ;
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- dcterms:source "https://en.wikipedia.org/wiki/Square_wave"
- ] .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_0f007072_a8dd_4798_b865_1bf9363be627
-:electrochemistry_0f007072_a8dd_4798_b865_1bf9363be627 rdf:type owl:Class ;
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- skos:prefLabel "Electrode"@en .
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- ] .
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-[ rdf:type owl:Axiom ;
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- ] .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_0f827b54_370d_4c63_99a6_80f13b24e55e
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- ] .
-
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_10359c79_cdf2_401a_83ee_d22e7fbb2ad1
-:electrochemistry_10359c79_cdf2_401a_83ee_d22e7fbb2ad1 rdf:type owl:Class ;
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_103c9e6c_9c26_430a_9fb9_f4f041e970b0
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_10a91aba_da41_4309_a926_ddc0f285c2c1
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_113e0469_8ae0_407f_892d_4b988f8d8a08
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_1152ae6b_8b57_4d99_912e_40c6a29342fb
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_11579b47_cbf8_45ac_aed3_343ea533b346
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_11a774f3_d20a_4741_bd81_cae53230bd0c
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_11e9f765_4fea_456b_bd8e_4624b9c752ae
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_1355816f_a2b5_4800_8001_fc888f5d6b1b
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_14d0358f_f65d_44f9_8b85_40b38f17c4ed
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_15325775_6d4c_4192_82f1_e4feca9de426
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_158ae038_c64b_4cc0_aa56_650475490705
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_15b852b5_19cc_49ab_849f_7df6175fb2be
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_15ec346a_6d3c_4161_95e1_9cf889965f85
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_180878b5_8de8_4dd8_b881_1d0bebe326d4
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_183a2337_c35f_4b74_8d9a_08c74d89bedc
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_187326b9_1089_4122_8e7e_1a0bcba210a1
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_19abaccd_43be_4048_965c_e4fb63c5951b
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_1a2eb6db_c927_4039_aea0_8dfab060fd27
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_1a7fb32a_743f_4aa6_ac5a_ff7a2ba29dce
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_1aec4cc0_82d5_4042_a657_ed7fe291c3d8
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_1d0f15cb_d6b5_4c27_89ca_fe78adc1ce5b
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_1d5377a7_9f2b_4fdf_958a_7eeadce158d6
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_1fc5642c_b7b2_43bf_ad20_f96001db8800
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_212af058_3bbb_419f_a9c6_90ba9ebb3706
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_21eef598_0799_4cb1_b2d5_6e072a8579a3
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_225cb9b8_d413_451e_9e36_fb6d1344b16e
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_22725105_c941_4b14_a4a2_fcb627958607
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_23b30468_be7b_45a9_bc11_a8219bc3ab8b
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_245c9442_ca1d_4070_a624_182b92d30b10
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_25d01d13_3ca5_4619_98c1_8ebbd01ad794
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_25dabdc2_68bf_4a38_8cbe_11be017358bc
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_26b19a7c_59ca_4e1b_8fb9_ba061c22531e
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_30c8fb1b_3c75_49f5_9395_c15dfaf71b12
-:electrochemistry_30c8fb1b_3c75_49f5_9395_c15dfaf71b12 rdf:type owl:Class ;
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- rdfs:comment "often used in wrist watches"@en ;
- skos:prefLabel "R2016"@en .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_31b7ac6a_b1eb_45e7_a075_b6063080c949
-:electrochemistry_31b7ac6a_b1eb_45e7_a075_b6063080c949 rdf:type owl:Class ;
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- skos:altLabel "R55" ;
- skos:prefLabel "R1121"@en .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_31e8052d_bede_43c6_8b41_d51bb24c9489
-:electrochemistry_31e8052d_bede_43c6_8b41_d51bb24c9489 rdf:type owl:Class ;
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-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_3279f575_1c62_4bf2_a6e8_de4c7ff36f8e
-:electrochemistry_3279f575_1c62_4bf2_a6e8_de4c7ff36f8e rdf:type owl:Class ;
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- skos:altLabel "R58" ;
- skos:prefLabel "R721"@en .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_328c6e36_3706_4d92_abae_432fa3adb2a0
-:electrochemistry_328c6e36_3706_4d92_abae_432fa3adb2a0 rdf:type owl:Class ;
- rdfs:subClassOf emmo:EMMO_f76884f7_964e_488e_9bb7_1b2453e9e817 ;
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- rdfs:comment "a cell baffle has a second function in protecting the plate pack from damage by objects inserted through the filling hole"@en ;
- skos:prefLabel "CellBaffle"@en .
-
-[ rdf:type owl:Axiom ;
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- dcterms:source "International Electrotechnical Commission (IEC), IEC 60050 - International Electrotechnical Vocabulary, retrieved from: https://www.electropedia.org"
- ] .
-
-[ rdf:type owl:Axiom ;
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- owl:annotatedTarget "a cell baffle has a second function in protecting the plate pack from damage by objects inserted through the filling hole"@en ;
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- ] .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_32ab2ea8_6263_42a8_8682_2fe0343f8bea
-:electrochemistry_32ab2ea8_6263_42a8_8682_2fe0343f8bea rdf:type owl:Class ;
- rdfs:subClassOf :electrochemistry_64bf0969_37a1_4aaf_82e9_68462847ac65 ;
- emmo:EMMO_26bf1bef_d192_4da6_b0eb_d2209698fb54 "https://www.wikidata.org/wiki/Q192414" ;
- emmo:EMMO_967080e5_2f42_4eb2_a3a9_c58143e835f9 "quantitative determination of a chemical species based on its mass"@en ;
- emmo:EMMO_c84c6752_6d64_48cc_9500_e54a3c34898d "https://en.wikipedia.org/wiki/Gravimetric_analysis" ;
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- skos:altLabel "GravimetricMethod"@en ;
- skos:prefLabel "GravimetricAnalysis"@en .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_331e6cca_f260_4bf8_af55_35304fe1bbe0
-:electrochemistry_331e6cca_f260_4bf8_af55_35304fe1bbe0 rdf:type owl:Class ;
- rdfs:subClassOf :electrochemistry_b5ea31c9_bb10_4276_980e_c3eceb1efc82 ;
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- emmo:EMMO_50c298c2_55a2_4068_b3ac_4e948c33181f "https://www.electropedia.org/iev/iev.nsf/display?openform&ievref=114-03-17"@en ,
- "https://www.electropedia.org/iev/iev.nsf/display?openform&ievref=482-02-11" ;
- emmo:EMMO_967080e5_2f42_4eb2_a3a9_c58143e835f9 "in an electrochemical cell, device made of insulating material permeable to the ions of the electrolyte and prohibiting totally or partially the mixing of the substances on both sides."@en ;
- emmo:EMMO_c84c6752_6d64_48cc_9500_e54a3c34898d "https://en.wikipedia.org/wiki/Separator_(electricity)"@en ;
- rdfs:comment "Membranes and diaphragms are special forms of electrochemical separators."@en ;
- skos:altLabel "ElectrochemicalSeparator"@en ;
- skos:prefLabel "Separator"@en .
-
-[ rdf:type owl:Axiom ;
- owl:annotatedSource :electrochemistry_331e6cca_f260_4bf8_af55_35304fe1bbe0 ;
- owl:annotatedProperty emmo:EMMO_967080e5_2f42_4eb2_a3a9_c58143e835f9 ;
- owl:annotatedTarget "in an electrochemical cell, device made of insulating material permeable to the ions of the electrolyte and prohibiting totally or partially the mixing of the substances on both sides."@en ;
- dcterms:source "International Electrotechnical Commission (IEC), IEC 60050 - International Electrotechnical Vocabulary, retrieved from: https://www.electropedia.org"
- ] .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_334b3acd_e35d_4d5a_b8b5_6d13cbebbc57
-:electrochemistry_334b3acd_e35d_4d5a_b8b5_6d13cbebbc57 rdf:type owl:Class ;
- rdfs:subClassOf :electrochemistry_6592d8cc_4ce4_42ca_b010_6bfc4a8444d2 ;
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- skos:prefLabel "SulfuricAcidSolution"@en .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_339e1ba1_2006_4f22_aac4_3ce75edf1088
-:electrochemistry_339e1ba1_2006_4f22_aac4_3ce75edf1088 rdf:type owl:Class ;
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- ] ;
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- skos:altLabel "FTOElectrode"@en ;
- skos:prefLabel "FluorineDopedTinOxideElectrode"@en .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_344ed3a6_481a_499f_afef_631f1cece9ef
-:electrochemistry_344ed3a6_481a_499f_afef_631f1cece9ef rdf:type owl:Class ;
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- ] ;
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- "NickelOxyhydroxideElectrode"@en ;
- skos:prefLabel "NickelOxideHydroxideElectrode"@en .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_34bc54e3_de4c_41f8_8d3a_d77c951ee23a
-:electrochemistry_34bc54e3_de4c_41f8_8d3a_d77c951ee23a rdf:type owl:Class ;
- rdfs:subClassOf emmo:EMMO_4f226cf3_6d02_4d35_8566_a9e641bc6ff3 ;
- emmo:EMMO_26bf1bef_d192_4da6_b0eb_d2209698fb54 "https://www.wikidata.org/wiki/Q190136" ;
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- emmo:EMMO_967080e5_2f42_4eb2_a3a9_c58143e835f9 "needle-like or tree-like formation of crystalline growth formed during deposition of a material"@en ;
- emmo:EMMO_c84c6752_6d64_48cc_9500_e54a3c34898d "https://en.wikipedia.org/wiki/Dendrite_(crystal)"@en ;
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- skos:prefLabel "Dendrite"@en .
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-[ rdf:type owl:Axiom ;
- owl:annotatedSource :electrochemistry_34bc54e3_de4c_41f8_8d3a_d77c951ee23a ;
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- dcterms:source "International Electrotechnical Commission (IEC), IEC 60050 - International Electrotechnical Vocabulary, retrieved from: https://www.electropedia.org"
- ] .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_34cb7ea7_2436_46e0_806e_a3c7835ae228
-:electrochemistry_34cb7ea7_2436_46e0_806e_a3c7835ae228 rdf:type owl:Class ;
- rdfs:subClassOf :electrochemistry_3979cd56_6256_414d_966c_7f723bf71e37 ;
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- skos:altLabel "R67" ;
- skos:prefLabel "R716"@en .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_35c650ab_3b23_4938_b312_1b0dede2e6d5
-:electrochemistry_35c650ab_3b23_4938_b312_1b0dede2e6d5 rdf:type owl:Class ;
- rdfs:subClassOf :electrochemistry_0f007072_a8dd_4798_b865_1bf9363be627 ;
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- emmo:EMMO_967080e5_2f42_4eb2_a3a9_c58143e835f9 "by convention, cell electrode at which, a reduction reaction occurs"@en ;
- emmo:EMMO_c84c6752_6d64_48cc_9500_e54a3c34898d "https://en.wikipedia.org/wiki/Cathode"@en ;
- emmo:EMMO_fe015383_afb3_44a6_ae86_043628697aa2 "https://goldbook.iupac.org/terms/view/C00905"@en ;
- rdfs:comment "electrode of an electrochemical cell through which net electric current flows and at which the predominating electrochemical reaction is a reduction"@en ,
- "the cathode is the positive electrode during discharge and the negative electrode during charge"@en ,
- "the concepts of “anode” and “cathode” are related only to the direction of electron flow, not to the polarity of the electrodes"@en ;
- skos:prefLabel "Cathode"@en .
-
-[ rdf:type owl:Axiom ;
- owl:annotatedSource :electrochemistry_35c650ab_3b23_4938_b312_1b0dede2e6d5 ;
- owl:annotatedProperty emmo:EMMO_967080e5_2f42_4eb2_a3a9_c58143e835f9 ;
- owl:annotatedTarget "by convention, cell electrode at which, a reduction reaction occurs"@en ;
- dcterms:source "International Electrotechnical Commission (IEC), IEC 60050 - International Electrotechnical Vocabulary, retrieved from: https://www.electropedia.org"
- ] .
-
-[ rdf:type owl:Axiom ;
- owl:annotatedSource :electrochemistry_35c650ab_3b23_4938_b312_1b0dede2e6d5 ;
- owl:annotatedProperty rdfs:comment ;
- owl:annotatedTarget "electrode of an electrochemical cell through which net electric current flows and at which the predominating electrochemical reaction is a reduction"@en ;
- dcterms:source "J. M. Pingarrón et al., Terminology of electrochemical methods of analysis (IUPAC Recommendations 2019), Pure and Applied Chemistry, 4, 92, 2020, 641-694. https://doi.org/10.1515/pac-2018-0109"
- ] .
-
-[ rdf:type owl:Axiom ;
- owl:annotatedSource :electrochemistry_35c650ab_3b23_4938_b312_1b0dede2e6d5 ;
- owl:annotatedProperty rdfs:comment ;
- owl:annotatedTarget "the cathode is the positive electrode during discharge and the negative electrode during charge"@en ;
- dcterms:source "International Electrotechnical Commission (IEC), IEC 60050 - International Electrotechnical Vocabulary, retrieved from: https://www.electropedia.org"
- ] .
-
-[ rdf:type owl:Axiom ;
- owl:annotatedSource :electrochemistry_35c650ab_3b23_4938_b312_1b0dede2e6d5 ;
- owl:annotatedProperty rdfs:comment ;
- owl:annotatedTarget "the concepts of “anode” and “cathode” are related only to the direction of electron flow, not to the polarity of the electrodes"@en ;
- dcterms:source "J. M. Pingarrón et al., Terminology of electrochemical methods of analysis (IUPAC Recommendations 2019), Pure and Applied Chemistry, 4, 92, 2020, 641-694. https://doi.org/10.1515/pac-2018-0109"
- ] .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_3663991d_9319_4f7a_922b_f0e428b58801
-:electrochemistry_3663991d_9319_4f7a_922b_f0e428b58801 rdf:type owl:Class ;
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- ] ;
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- skos:prefLabel "PorousElectrode"@en .
-
-[ rdf:type owl:Axiom ;
- owl:annotatedSource :electrochemistry_3663991d_9319_4f7a_922b_f0e428b58801 ;
- owl:annotatedProperty emmo:EMMO_967080e5_2f42_4eb2_a3a9_c58143e835f9 ;
- owl:annotatedTarget "porous electrodes consist of porous matrices of a single reactive electronic conductor or a mixture of solids that include essentially non-conducting, reactive materials in addition to electronic conductors. An electrolytic solution fills the void spaces of the porous matrix."@en ;
- dcterms:references "J. Newman and K. E. Thmoas-Alyea, Electrochemical Systems, 3rd ed. Hoboken, New Jersey: John Wiley & Sons, 2004."
- ] .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_36e05f2f_d279_4816_b5ae_6bb4cef02736
-:electrochemistry_36e05f2f_d279_4816_b5ae_6bb4cef02736 rdf:type owl:Class ;
- rdfs:subClassOf :electrochemistry_3979cd56_6256_414d_966c_7f723bf71e37 ;
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- skos:prefLabel "R1216"@en .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_38755e67_9d3b_4a82_bd8d_ef40a70379c1
-:electrochemistry_38755e67_9d3b_4a82_bd8d_ef40a70379c1 rdf:type owl:Class ;
- rdfs:subClassOf emmo:EMMO_f76884f7_964e_488e_9bb7_1b2453e9e817 ;
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- rdfs:comment "usually used in a flow cell system"@en ;
- skos:prefLabel "AnolyteTank"@en .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_387e1e59_e511_4acb_b5ec_fa7360ec7557
-:electrochemistry_387e1e59_e511_4acb_b5ec_fa7360ec7557 rdf:type owl:Class ;
- rdfs:subClassOf :electrochemistry_3979cd56_6256_414d_966c_7f723bf71e37 ;
- skos:altLabel "a coin case with a nominal diameter of 9.5 mm and a height of 2.7 mm"@en ;
- skos:prefLabel "R927"@en .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_39536efc_22a6_4f39_b0c2_e8b845a36278
-:electrochemistry_39536efc_22a6_4f39_b0c2_e8b845a36278 rdf:type owl:Class ;
- rdfs:subClassOf :electrochemistry_6e439f86_3d00_4b0b_82ab_1fa25241d4e9 ,
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- ] ,
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- ] ;
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- rdfs:comment "Direct coulometry at controlled potential is usually carried out in convective mass trans- fer mode using a large surface working electrode. Reference and auxiliary electrodes are placed in separate compartments. The total electric charge is obtained by integration of the I–t curve or can be measured directly using a coulometer."@en ,
- """In principle, the end point at which I = 0, i.e. when the concentration of species under study becomes zero, can be reached only at infinite time. However, in practice, the electrolysis is stopped when the current has decayed to a few percent of the initial value and the charge passed at infinite time is calculated from a plot of charge Q(t) against time t. For a simple system under diffusion control Qt= Q∞[1 − exp(−DAt/Vδ)], where Q∞ = limt→∞Q(t) is the total
-charge passed at infinite time, D is the diffusion coefficient of the electroactive species, A the electrode area, δ the diffusion layer thickness, and V the volume of the solution."""@en ;
- skos:prefLabel "DirectCoulometryAtControlledPotential"@en .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_3979cd56_6256_414d_966c_7f723bf71e37
-:electrochemistry_3979cd56_6256_414d_966c_7f723bf71e37 rdf:type owl:Class ;
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- skos:altLabel "ButtonCase"@en ;
- skos:prefLabel "CoinCase"@en .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_399b10cd_8a2e_47be_96b8_295890bd2460
-:electrochemistry_399b10cd_8a2e_47be_96b8_295890bd2460 rdf:type owl:Class ;
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_39c6f5a0_5dc8_4112_b432_b9fece568ca2
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_3a77b5e7_9646_4154_bf8f_5f798989e5f3
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_3b35e843_3132_41e3_b6df_541cd45ba880
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- rdfs:comment "Anodic stripping voltammetry (ASV) was historically used to measure concentrations of metal ions in solution using cathodic accumulation with mercury to form an amalgam. Due to the toxicity of mercury and its compounds, inductively coupled plasma optical emission spectrometry and inductively coupled plasma mass spectrometry have frequently replaced ASV at mercury electrodes in the laboratory, often sacrificing the probing of speciation and lability in complex matrices. Mercury has now been replaced by non-toxic bismuth or anti- mony as films on a solid electrode support (such as glassy carbon) with equally good sensi- tivity and detection limits."@en ,
- "Because the accumulation (pre-concentration) step can be prolonged, increasing the amount of material at the electrode, stripping voltammetry is able to measure very small concentrations of analyte."@en ,
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_3c3972f6_8e1d_454b_a198_48173ba2232b
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- "Sigmoidal wave-shaped voltammograms are obtained."@en ,
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- "The current is sampled just before the end of the pulse, when the charging current is greatly diminished. In this way, the ratio of faradaic current to charging current is enhanced and the negative influence of charging current is partially eliminated. Due to the improved signal (faradaic current) to noise (charging current) ratio, the limit of detec- tion is lowered."@en ,
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_3cd0e74e_292c_48ed_a831_4cb8753d9a56
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_3cfdfc10_a5cb_4e3e_b1a1_281010d1465c
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_3d805c2a_4801_440e_9e4d_0fa5585c76ae
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_3e6a7d5f_3700_46b3_b1b8_f34e37e6f931
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_3e7fe02d_c888_4c49_8e05_ccd9785607a6
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_3f67016b_32b9_4419_a3f8_a5ffb5e92538
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_3f6c9e09_5f23_41cc_9f85_7de365cef089
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- ] .
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_3f70e5c5_67f0_483e_998b_b83b7739c4bc
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- ] .
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_3f9b2956_1465_4fe0_b0df_5e4784dac3b6
-:electrochemistry_3f9b2956_1465_4fe0_b0df_5e4784dac3b6 rdf:type owl:Class ;
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_3fdc81d5_eef3_4408_a6e4_3c51c5b1c8dc
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-
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_3fe63496_6d87_427a_b2aa_4555bc31ee1a
-:electrochemistry_3fe63496_6d87_427a_b2aa_4555bc31ee1a rdf:type owl:Class ;
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- rdfs:comment "Amperometry can be distinguished from voltammetry by the parameter being controlled (electrode potential E) and the parameter being measured (electrode current I which is usually a function of time – see chronoamperometry)."@en ,
- "In a non-stirred solution, a diffusion-limited current is usually measured, which is propor-tional to the concentration of an electroactive analyte."@en ,
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-
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_400cb3e0_27b5_4d9a_be80_f86ad2757763
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_402598d9_0eea_405d_b0d0_3b8b79deba6f
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_403c300e_09b9_400b_943b_04e82a3cfb56
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_40ca9548_910a_48b6_9a26_f94095d349cd
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_4143b1c2_2d21_419e_af45_247d4c78ce7e
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_418c59bd_dc9d_438b_bc7c_494fbd1bb4f8
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_41ddf723_245f_4ce8_b9b1_7d9b3b9eea7d
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_4288b145_ba79_4989_92f8_86086679b0fe
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- skos:altLabel "Gassing"@en ;
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-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_43cd6e14_dd43_41b5_b5b4_344d53841603
-:electrochemistry_43cd6e14_dd43_41b5_b5b4_344d53841603 rdf:type owl:Class ;
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-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_43ce1a7e_8056_40cb_bdbd_4ce991af1821
-:electrochemistry_43ce1a7e_8056_40cb_bdbd_4ce991af1821 rdf:type owl:Class ;
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- "The method is used to monitor the purity of dielectrics, for example to detect small amounts of moisture."@en ;
- skos:prefLabel "Dielectrometry"@en .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_444992e5_43f8_44a1_9767_b408dbe54330
-:electrochemistry_444992e5_43f8_44a1_9767_b408dbe54330 rdf:type owl:Class ;
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- emmo:EMMO_967080e5_2f42_4eb2_a3a9_c58143e835f9 "phenomenon by which a cell or battery loses energy in other ways than by discharge into an external circuit"@en ;
- emmo:EMMO_c84c6752_6d64_48cc_9500_e54a3c34898d "https://en.wikipedia.org/wiki/Self-discharge"@en ;
- rdfs:seeAlso "ChargeRetention"@en ;
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-
-[ rdf:type owl:Axiom ;
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- dcterms:source "International Electrotechnical Commission (IEC), IEC 60050 - International Electrotechnical Vocabulary, retrieved from: https://www.electropedia.org"
- ] .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_457a8f92_0a19_4773_8114_a42edff32248
-:electrochemistry_457a8f92_0a19_4773_8114_a42edff32248 rdf:type owl:Class ;
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- ] ;
- emmo:EMMO_50c298c2_55a2_4068_b3ac_4e948c33181f "https://www.electropedia.org/iev/iev.nsf/display?openform&ievref=482-02-04" ;
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-[ rdf:type owl:Axiom ;
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- ] .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_46676855_68b0_4096_ac6c_35400111d46d
-:electrochemistry_46676855_68b0_4096_ac6c_35400111d46d rdf:type owl:Class ;
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- "ElectricChargeTimeCurve"@en ,
- "ElectricChargeTimePlot"@en ,
- "QtCurve"@en ;
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-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_46957d35_0f8b_4d92_acb3_aded6ce774a1
-:electrochemistry_46957d35_0f8b_4d92_acb3_aded6ce774a1 rdf:type owl:Class ;
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-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_46ac0fd3_2b8e_40aa_bf5d_19cf1dd39052
-:electrochemistry_46ac0fd3_2b8e_40aa_bf5d_19cf1dd39052 rdf:type owl:Class ;
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-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_47346d85_b9be_4480_8993_6307b1c58fcd
-:electrochemistry_47346d85_b9be_4480_8993_6307b1c58fcd rdf:type owl:Class ;
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-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_47ab1dad_cc09_4fd8_af23_acb36fb680dd
-:electrochemistry_47ab1dad_cc09_4fd8_af23_acb36fb680dd rdf:type owl:Class .
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_4839708a_3864_47eb_b719_373ff8874c61
-:electrochemistry_4839708a_3864_47eb_b719_373ff8874c61 rdf:type owl:Class ;
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- skos:prefLabel "BimetallicOxideElectrode"@en .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_48e380c3_0441_4761_a80f_3e448cb2f0ba
-:electrochemistry_48e380c3_0441_4761_a80f_3e448cb2f0ba rdf:type owl:Class ;
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- skos:prefLabel "LithiumNickelMananeseCobaltOxideLithiumManganeseOxideElectrode"@en .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_4920de95_3a48_4669_b762_5a0b5232b52f
-:electrochemistry_4920de95_3a48_4669_b762_5a0b5232b52f rdf:type owl:Class ;
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-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_49263a32_eca6_4644_8144_0d3b14c26d0a
-:electrochemistry_49263a32_eca6_4644_8144_0d3b14c26d0a rdf:type owl:Class ;
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-[ rdf:type owl:Axiom ;
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- ] .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_496c8f31_9732_42c1_8eae_dd73979c06eb
-:electrochemistry_496c8f31_9732_42c1_8eae_dd73979c06eb rdf:type owl:Class ;
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-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_4977521c_0438_4659_bc81_1c77fae836bb
-:electrochemistry_4977521c_0438_4659_bc81_1c77fae836bb rdf:type owl:Class ;
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- skos:prefLabel "ThionylChlorideElectrode"@en .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_49909cd1_44f4_41b4_877a_82a52845a5cb
-:electrochemistry_49909cd1_44f4_41b4_877a_82a52845a5cb rdf:type owl:Class ;
- rdfs:subClassOf emmo:EMMO_f76884f7_964e_488e_9bb7_1b2453e9e817 ;
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-[ rdf:type owl:Axiom ;
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- ] .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_4a13e538_4c08_4ba9_8ebc_98a866208e01
-:electrochemistry_4a13e538_4c08_4ba9_8ebc_98a866208e01 rdf:type owl:Class ;
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-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_4a5660bd_1c1a_40e5_8a41_463c720d3903
-:electrochemistry_4a5660bd_1c1a_40e5_8a41_463c720d3903 rdf:type owl:Class ;
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-[ rdf:type owl:Axiom ;
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- ] .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_4aa1b96e_44a0_4b1a_a0ac_723d0223d80b
-:electrochemistry_4aa1b96e_44a0_4b1a_a0ac_723d0223d80b rdf:type owl:Class .
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-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_4bc38e99_1978_4143_a766_fbb57f2cf46e
-:electrochemistry_4bc38e99_1978_4143_a766_fbb57f2cf46e rdf:type owl:Class ;
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-[ rdf:type owl:Axiom ;
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- ] .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_4bdd6359_1422_4c50_ac0c_5d8042dd65fc
-:electrochemistry_4bdd6359_1422_4c50_ac0c_5d8042dd65fc rdf:type owl:Class ;
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- skos:altLabel "BDM"@en ;
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-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_4c3ee364_829b_41a4_b895_ca4a041efb2a
-:electrochemistry_4c3ee364_829b_41a4_b895_ca4a041efb2a rdf:type owl:Class ;
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-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_4d09ddc4_7e71_4712_afab_b33d8df38983
-:electrochemistry_4d09ddc4_7e71_4712_afab_b33d8df38983 rdf:type owl:Class ;
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-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_4d2b102b_3515_4591_b079_69232c44f9dc
-:electrochemistry_4d2b102b_3515_4591_b079_69232c44f9dc rdf:type owl:Class .
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_4d6f7f50_b343_4bd6_8612_2b8521a99c9b
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- ] .
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-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_4df84ec1_8a1a_4770_963f_bf48009bd043
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- ] .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_4e02d727_07fe_41fd_886c_041317342086
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- ] .
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_4ebe2ef1_eea8_4b10_822d_7a68215bd24d
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_4edb47d6_107c_40a2_be7c_6b26e9d296da
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-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_4f2348dd_d9ea_4448_af8c_a4a38f3d04b4
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- rdfs:comment "electrode in which the active material is calcium"@en ;
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_50044b99_b858_433b_a32d_23d1e1cf88b2
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_502a98a3_ce47_421f_8e0a_016ed171c900
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_510e4061_c4fa_49aa_a052_23ad56098eda
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_5186239a_2af7_4dbf_92ca_22e8e583c528
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_522f0c0b_cf33_4328_af71_12e38dae6798
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- ] .
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_52501237_0c13_4bfb_aa3a_441c6a9ae3a6
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- rdfs:comment "Coulometric titrations are usually carried out in convective mass transfer mode using a large surface working electrode. The reference and auxiliary electrodes are located in sepa- rate compartments. A basic requirement is a 100 % current efficiency of titrant generation at the working electrode. End-point detection can be accomplished with potentiometry, amperometry, biamperometry, bipotentiometry, photometry, or by using a visual indicator."@en ,
- "The main advantages are that titration is possible with less stable titrants, the standardi- zation of titrant is not necessary, the volume of the test solution is not changed, and the method is easily automated."@en ;
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-
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_534dd59c_904c_45d9_8550_ae9d2eb6bbc9
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_53fe3f58_0802_41cf_af69_4784fc42cc30
-:electrochemistry_53fe3f58_0802_41cf_af69_4784fc42cc30 rdf:type owl:Class ;
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-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_54e0c2bd_1bb2_4f9c_9b55_5b6cc34651ec
-:electrochemistry_54e0c2bd_1bb2_4f9c_9b55_5b6cc34651ec rdf:type owl:Class ;
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-[ rdf:type owl:Axiom ;
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- ] .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_5548f188_df00_4c05_ae98_7846e92efe36
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-
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_5641910f_6e69_4ce4_be84_4b1bf14b8916
-:electrochemistry_5641910f_6e69_4ce4_be84_4b1bf14b8916 rdf:type owl:Class ;
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-[ rdf:type owl:Axiom ;
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- ] .
-
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_564d31be_91cb_4a8f_8369_2a55f1180499
-:electrochemistry_564d31be_91cb_4a8f_8369_2a55f1180499 rdf:type owl:Class ;
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-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_56da3bb3_a0ce_40ed_b152_d3c14329d31a
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-
-[ rdf:type owl:Axiom ;
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- dcterms:source "J. M. Pingarrón et al., Terminology of electrochemical methods of analysis (IUPAC Recommendations 2019), Pure and Applied Chemistry, 4, 92, 2020, 641-694. https://doi.org/10.1515/pac-2018-0109"
- ] .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_56f85b19_1384_4e88_b130_cb8e7984db83
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-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_573be62a_5aae_4984_9a51_7c50845493df
-:electrochemistry_573be62a_5aae_4984_9a51_7c50845493df rdf:type owl:Class ;
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-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_5766a819_c319_48ba_ab9a_ce3bd8fedee8
-:electrochemistry_5766a819_c319_48ba_ab9a_ce3bd8fedee8 rdf:type owl:Class .
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_58413d4e_2885_459e_ac06_8d45e661cf91
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-
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_58a20764_c339_4856_983a_05092b5282e8
-:electrochemistry_58a20764_c339_4856_983a_05092b5282e8 rdf:type owl:Class ;
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- skos:prefLabel "ACVoltammetrySignal"@en .
-
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_58ad1d22_3803_4c95_a137_207cfebe242a
-:electrochemistry_58ad1d22_3803_4c95_a137_207cfebe242a rdf:type owl:Class ;
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_598ae3d0_76e9_429c_a0e1_8694525cb574
-:electrochemistry_598ae3d0_76e9_429c_a0e1_8694525cb574 rdf:type owl:Class ;
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- emmo:EMMO_c84c6752_6d64_48cc_9500_e54a3c34898d "https://en.wikipedia.org/wiki/Molar_conductivity#Kohlrausch's_law_of_independent_migration_of_ions"@en ;
- rdfs:comment "proposed by Friedrich Kohlrausch between 1875-1879"@en ,
- "valid for dilute solutions"@en ;
- skos:prefLabel "KohlrauschsLaw"@en .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_59c041fc_eaa1_40fc_9b3e_1a6aca6119fd
-:electrochemistry_59c041fc_eaa1_40fc_9b3e_1a6aca6119fd rdf:type owl:Class ;
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- skos:prefLabel "Record"@en .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_5a0f3b6a_10b4_43a7_b0b6_4eb5c077980e
-:electrochemistry_5a0f3b6a_10b4_43a7_b0b6_4eb5c077980e rdf:type owl:Class ;
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- ] ;
- emmo:EMMO_967080e5_2f42_4eb2_a3a9_c58143e835f9 "linear scan voltammetry with slow scan rate in which a dropping mercury electrode is used as the working electrode"@en ;
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- rdfs:comment "If the whole scan is performed on a single growing drop, the technique should be called single drop scan voltammetry. The term polarography in this context is discouraged."@en ,
- "This is the oldest variant of polarographic techniques, introduced by Jaroslav Heyrovský (1890 – 1967)."@en ,
- "Usually the drop time is between 1 and 5 s and the pseudo-steady-state wave-shaped dependence on potential is called a polarogram. If the limiting current is controlled by dif- fusion, it is expressed by the Ilkovich equation."@en ;
- skos:prefLabel "DCPolarography"@en .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_5a7a3028_db9e_4045_ab68_054c6afc91fc
-:electrochemistry_5a7a3028_db9e_4045_ab68_054c6afc91fc rdf:type owl:Class ;
- rdfs:subClassOf emmo:EMMO_9c32fd69_f480_4130_83b3_fb25d9face14 ;
- emmo:EMMO_26bf1bef_d192_4da6_b0eb_d2209698fb54 "https://www.wikidata.org/wiki/Q899494" ;
- emmo:EMMO_967080e5_2f42_4eb2_a3a9_c58143e835f9 "the rate of the chemical reaction is directly proportional to the product of the activities or concentrations of the reactants"@en ;
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- skos:prefLabel "LawOfMassAction"@en .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_5adb91e0_ffe1_41f3_b779_c6966f65fb0e
-:electrochemistry_5adb91e0_ffe1_41f3_b779_c6966f65fb0e rdf:type owl:Class ;
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- rdfs:comment "the term metal is meant to loosely cover alkali metals, alkaline earth metals, transition metals, post-transition metals, and metalloids"@en ;
- skos:prefLabel "MetalElectrode"@en .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_5c0fdc09_166e_40a6_ad74_be66f0db51bc
-:electrochemistry_5c0fdc09_166e_40a6_ad74_be66f0db51bc rdf:type owl:Class ;
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- emmo:EMMO_967080e5_2f42_4eb2_a3a9_c58143e835f9 "electrode in which the active material is carbon monofluoride"@en ;
- skos:prefLabel "CarbonMonofluorideElectrode"@en .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_5cb5548f_f774_4668_ad02_f0742581f2f1
-:electrochemistry_5cb5548f_f774_4668_ad02_f0742581f2f1 rdf:type owl:Class ;
- rdfs:subClassOf :electrochemistry_19abaccd_43be_4048_965c_e4fb63c5951b ;
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- emmo:EMMO_967080e5_2f42_4eb2_a3a9_c58143e835f9 "change of the mechanical stress at the surface separating two bodies due to the presence of electric charges at the interface"@en ;
- emmo:EMMO_c84c6752_6d64_48cc_9500_e54a3c34898d "https://en.wikipedia.org/wiki/Electrocapillarity"@en ;
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-[ rdf:type owl:Axiom ;
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- owl:annotatedTarget "change of the mechanical stress at the surface separating two bodies due to the presence of electric charges at the interface"@en ;
- dcterms:source "International Electrotechnical Commission (IEC), IEC 60050 - International Electrotechnical Vocabulary, retrieved from: https://www.electropedia.org"
- ] .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_5ce6a328_713c_4383_ad63_26c902c30e34
-:electrochemistry_5ce6a328_713c_4383_ad63_26c902c30e34 rdf:type owl:Class .
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-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_5f9a9411_05f9_4576_acd3_81d7d41cfe98
-:electrochemistry_5f9a9411_05f9_4576_acd3_81d7d41cfe98 rdf:type owl:Class ;
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- skos:altLabel "NonAqueousElectrolyticSolution"@en ,
- "NonAqueousSolution"@en ;
- skos:prefLabel "NonAqueousElectrolyte"@en .
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-[ rdf:type owl:Axiom ;
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- owl:annotatedTarget "an ion-transport medium that does not contain water."@en ;
- dcterms:source "IEEE Standard Glossary of Stationary Battery Terminology (2016), https://doi.org/10.1109/IEEESTD.2016.7552407"
- ] .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_609b340f_3450_4a10_95c2_c457e3eb8a89
-:electrochemistry_609b340f_3450_4a10_95c2_c457e3eb8a89 rdf:type owl:Class ;
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- skos:prefLabel "LiquidElectrolyte"@en .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_60bc27f0_8290_4113_8c3b_011433a733c7
-:electrochemistry_60bc27f0_8290_4113_8c3b_011433a733c7 rdf:type owl:Class ;
- rdfs:subClassOf emmo:EMMO_f76884f7_964e_488e_9bb7_1b2453e9e817 ;
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- emmo:EMMO_967080e5_2f42_4eb2_a3a9_c58143e835f9 "cover of insulating material used to avoid electric contact with the cell or battery terminal"@en ;
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- skos:prefLabel "TerminalProtector"@en .
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-[ rdf:type owl:Axiom ;
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- dcterms:source "International Electrotechnical Commission (IEC), IEC 60050 - International Electrotechnical Vocabulary, retrieved from: https://www.electropedia.org"
- ] .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_60c5b2e5_164a_4ce6_8409_f386f5e50c03
-:electrochemistry_60c5b2e5_164a_4ce6_8409_f386f5e50c03 rdf:type owl:Class ;
- rdfs:subClassOf emmo:EMMO_9c32fd69_f480_4130_83b3_fb25d9face14 ;
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- emmo:EMMO_c84c6752_6d64_48cc_9500_e54a3c34898d "https://en.wikipedia.org/wiki/Faraday%27s_laws_of_electrolysis#Second_law"@en ;
- rdfs:comment "m_1/m_2 = (M_1/z_1) / (M_2/z_2)" ;
- skos:prefLabel "FaradaysSecondLawOfElectrolysis"@en .
-
-[ rdf:type owl:Axiom ;
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- owl:annotatedTarget "when the same electric charge (quantity of electricity) Q is passed through several electrolytes, the mass, m_i, of the substances deposited are proportional to their respective chemical equivalent molar mass, M_i/z_i."@en ;
- dcterms:source "J. M. Pingarrón et al., Terminology of electrochemical methods of analysis (IUPAC Recommendations 2019), Pure and Applied Chemistry, 4, 92, 2020, 641-694. https://doi.org/10.1515/pac-2018-0109"
- ] .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_610f0bc8_557d_455b_a8ed_272d5d1813c9
-:electrochemistry_610f0bc8_557d_455b_a8ed_272d5d1813c9 rdf:type owl:Class ;
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- ] ;
- rdfs:comment "metal electrode in which the active material is lead"@en ;
- skos:prefLabel "LeadElectrode"@en .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_615cff2a_be95_4e65_9471_98db23f4c878
-:electrochemistry_615cff2a_be95_4e65_9471_98db23f4c878 rdf:type owl:Class ;
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- rdfs:comment "typical alkaline electrolytes have a pH in the range 13 < x < 15"@en ;
- skos:altLabel "AlkalineAqueousElectrolyte"@en ,
- "AlkalineSolution"@en ;
- skos:prefLabel "AlkalineElectrolyte"@en .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_61740c42_d332_492c_8b37_90a187c7f6d9
-:electrochemistry_61740c42_d332_492c_8b37_90a187c7f6d9 rdf:type owl:Class ;
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- emmo:EMMO_fe015383_afb3_44a6_ae86_043628697aa2 "https://doi.org/10.1515/pac-2018-0109"@en ;
- rdfs:comment "A peak-shaped cathodic stripping voltammogram is obtained. Peak current depends on time of accumulation, mass transport of analyte (stirring), scan rate and mode (linear or pulse), and analyte concentration in solution."@en ;
- skos:altLabel "CSV"@en ;
- skos:prefLabel "CathodicStrippingVoltammetry"@en .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_618538fa_6607_45a3_ad06_6a5f98febcbd
-:electrochemistry_618538fa_6607_45a3_ad06_6a5f98febcbd rdf:type owl:Class ;
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- ] ;
- emmo:EMMO_967080e5_2f42_4eb2_a3a9_c58143e835f9 "chronopotentiometry where the applied current is changed linearly"@en ;
- skos:prefLabel "LinearChronopotentiometry"@en .
-
-[ rdf:type owl:Axiom ;
- owl:annotatedSource :electrochemistry_618538fa_6607_45a3_ad06_6a5f98febcbd ;
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- owl:annotatedTarget "chronopotentiometry where the applied current is changed linearly"@en ;
- dcterms:source "J. M. Pingarrón et al., Terminology of electrochemical methods of analysis (IUPAC Recommendations 2019), Pure and Applied Chemistry, 4, 92, 2020, 641-694. https://doi.org/10.1515/pac-2018-0109."
- ] .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_6235cc7c_2eee_432a_93af_47d7e05db007
-:electrochemistry_6235cc7c_2eee_432a_93af_47d7e05db007 rdf:type owl:Class ;
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-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_626f81db_ae4e_410a_96b8_0582aa2a9434
-:electrochemistry_626f81db_ae4e_410a_96b8_0582aa2a9434 rdf:type owl:Class ;
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- skos:prefLabel "StaircaseCurrentRamp"@en .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_634467ad_feed_4979_adb2_877d98fe1768
-:electrochemistry_634467ad_feed_4979_adb2_877d98fe1768 rdf:type owl:Class ;
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- emmo:EMMO_fe015383_afb3_44a6_ae86_043628697aa2 "https://goldbook.iupac.org/terms/view/L03584"@en ;
- rdfs:comment "Across such a junction there arises a potential difference, called the liquid junction potential."@en ,
- "In the operational pH cell the junction is between the test, or pH standard, solution and the filling solution or the bridge solution of the reference electrode."@en ;
- skos:prefLabel "LiquidJunction"@en .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_637c576e_a50e_47ae_8c74_2024ce4c6d0f
-:electrochemistry_637c576e_a50e_47ae_8c74_2024ce4c6d0f rdf:type owl:Class ;
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- rdfs:comment "A typical construction is a tube of an inert material (e.g. agar agar) filled with a solution containing an electrolyte with approximately equal ion mobilities of the cation and the anion (e.g., KNO3, KCl), with the ends of the tube immersed in the electrolyte solution of the half cells."@en ;
- skos:prefLabel "SaltBridge"@en .
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-[ rdf:type owl:Axiom ;
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- dcterms:source "J. M. Pingarrón et al., Terminology of electrochemical methods of analysis (IUPAC Recommendations 2019), Pure and Applied Chemistry, 4, 92, 2020, 641-694. https://doi.org/10.1515/pac-2018-0109"
- ] .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_6385e07f_f40d_46b2_b998_c439950d75cb
-:electrochemistry_6385e07f_f40d_46b2_b998_c439950d75cb rdf:type owl:Class ;
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- skos:prefLabel "WaveSpring"@en .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_63dec5af_f3e9_46c9_8b0c_82516231d96b
-:electrochemistry_63dec5af_f3e9_46c9_8b0c_82516231d96b rdf:type owl:Class ;
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- rdfs:comment "The change in applied current is usually a step, but cyclic current reversals or linearly increasing currents are also used."@en ;
- skos:prefLabel "Chronopotentiometry"@en .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_63ea1c9b_0bda_4a69_9745_efb08e6be685
-:electrochemistry_63ea1c9b_0bda_4a69_9745_efb08e6be685 rdf:type owl:Class ;
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_64bf0969_37a1_4aaf_82e9_68462847ac65
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_6559c04d_75bc_41ea_8ed8_8d3c09dae6b0
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- ] .
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_6592d8cc_4ce4_42ca_b010_6bfc4a8444d2
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- "AcidicSolution"@en ;
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_65c90d8d_9712_4f3f_b830_d8163ec4cfcc
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_6769536b_5320_4b48_a2d8_ac285ec635a8
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_68c1c36e_1548_4247_bae2_fe7102a2c4ff
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_68eb5e35_5bd8_47b1_9b7f_f67224fa291e
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-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_6b1f594f_2c0a_46a0_8805_d6ab08baa75e
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- ] .
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-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_6b275583_433f_46f7_aafd_ebc9409257cc
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-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_6c421175_477f_45e0_8b6c_c3464f5351c5
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- ] .
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_6d0fe07e_a629_479c_ab24_2846f209bb0b
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-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_6dcd5baf_58cd_43f5_a692_51508e036c88
-:electrochemistry_6dcd5baf_58cd_43f5_a692_51508e036c88 rdf:type owl:Class .
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_6e439f86_3d00_4b0b_82ab_1fa25241d4e9
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- rdfs:comment "Coulometry used to measure the amount of substance is a primary reference measurement procedure [VIM 2.8] not requiring calibration with a standard for a quantity of the same kind (i.e. amount of substance)."@en ,
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-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_6ec59f99_5f26_4a7d_9b90_b52e0f8ad190
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-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_6f0dc7c0_ba12_4390_9564_f10f85a1779a
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- rdfs:comment "In this way, the ratio of faradaic current to double layer charging current is enhanced and the negative influence of charging current is partially eliminated. Due to the improved signal (faradaic current) to noise (charging current) ratio, the limit of detection is lowered."@en ;
- skos:altLabel "TASTPolarography"@en ;
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-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_6f2c88c9_5c04_4953_a298_032cc3ab9b77
-:electrochemistry_6f2c88c9_5c04_4953_a298_032cc3ab9b77 rdf:type owl:Class ;
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- "In electrochemistry the term “cell” is commonly qualified to describe the particular device on which electrochemical reactions take place. It is important to distinguish between the concept of an electrochemical cell (two electrodes separated by electrolyte) and an electrochemical device (a manufactured object for making practical use of an electrochemical cell, e.g. for measurement or energy storage purposes)."@en ,
- "composite system in which the supplied electric energy mainly produces chemical reactions or, conversely, in which the energy released by chemical reactions is mainly delivered by the system as electric energy"@en ,
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-[ rdf:type owl:Axiom ;
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- dcterms:source "J. Newman and K. E. Thmoas-Alyea, Electrochemical Systems, 3rd ed. Hoboken, New Jersey: John Wiley & Sons, 2004."
- ] .
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-[ rdf:type owl:Axiom ;
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- ] .
-
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_6fec8cc1_4e6c_428e_8343_6cf3c286a185
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- dcterms:source "J. M. Pingarrón et al., Terminology of electrochemical methods of analysis (IUPAC Recommendations 2019), Pure and Applied Chemistry, 4, 92, 2020, 641-694. https://doi.org/10.1515/pac-2018-0109"
- ] .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_712c791a_d593_4732_af73_493f7bc50999
-:electrochemistry_712c791a_d593_4732_af73_493f7bc50999 rdf:type owl:Class ;
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- skos:prefLabel "CurrentPulse"@en .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_713200a1_952b_49e2_90b7_deba229f6bbe
-:electrochemistry_713200a1_952b_49e2_90b7_deba229f6bbe rdf:type owl:Class ;
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- skos:altLabel "LMPElectrode"@en ;
- skos:prefLabel "LithiumManganesePhosphateElectrode"@en .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_729a1064_d039_4b74_9d1d_759b18a3971c
-:electrochemistry_729a1064_d039_4b74_9d1d_759b18a3971c rdf:type owl:Class ;
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- ] ;
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- rdfs:comment "If the potential step is from a potential at which no current flows (i.e., at which the oxidation or reduction of the electrochemically active species does not take place) to one at which the current is limited by diffusion (see diffusion-limited current), the current obeys the Cottrell equation."@en ;
- skos:altLabel "AmperiometricDetection"@en ,
- "AmperometricCurrentTimeCurve"@en ;
- skos:prefLabel "Chronoamperometry"@en .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_7393f12f_e3b9_42d6_bffb_e5613f53108f
-:electrochemistry_7393f12f_e3b9_42d6_bffb_e5613f53108f rdf:type owl:Class ;
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- skos:altLabel "AqueousZincChlorideSolution"@en ;
- skos:prefLabel "ZincChlorideSolution"@en .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_7416a831_ba72_447c_bf83_3989ba2dfe37
-:electrochemistry_7416a831_ba72_447c_bf83_3989ba2dfe37 rdf:type owl:Class ;
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-[ rdf:type owl:Axiom ;
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- dcterms:source "J. M. Pingarrón et al., Terminology of electrochemical methods of analysis (IUPAC Recommendations 2019), Pure and Applied Chemistry, 4, 92, 2020, 641-694. https://doi.org/10.1515/pac-2018-0109."
- ] .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_74459386_875c_4303_b774_60125b599d06
-:electrochemistry_74459386_875c_4303_b774_60125b599d06 rdf:type owl:Class ;
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-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_757eae08_4d43_42d4_8b4e_8a0bfd2f9a1c
-:electrochemistry_757eae08_4d43_42d4_8b4e_8a0bfd2f9a1c rdf:type owl:Class ;
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- skos:prefLabel "InsertionElectrode"@en .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_76318e8e_c1ba_49ac_8029_a951bd9dc955
-:electrochemistry_76318e8e_c1ba_49ac_8029_a951bd9dc955 rdf:type owl:Class ;
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- skos:altLabel "R62" ;
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-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_76df6e7b_fc3b_4a1f_98b1_0ca9c0539e4c
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-[ rdf:type owl:Axiom ;
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- dcterms:source "International Electrotechnical Commission (IEC), IEC 60050 - International Electrotechnical Vocabulary, retrieved from: https://www.electropedia.org"
- ] .
-
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_76e461aa_5948_4a68_8337_284d11e0fd7d
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-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_76fe8fb2_868e_48eb_95ca_fc6acd6f5fc9
-:electrochemistry_76fe8fb2_868e_48eb_95ca_fc6acd6f5fc9 rdf:type owl:Class ;
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-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_7729c34e_1ae9_403d_b933_1765885e7f29
-:electrochemistry_7729c34e_1ae9_403d_b933_1765885e7f29 rdf:type owl:Class ;
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-Cl2, Hg | Hg2SO4, and Hg | HgO, can be used as reference electrodes in aqueous solutions containing ions Cl^{−}, SO_4^{2−}, and OH^{−}, respectively."""@en ;
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- "In potentiometry, under zero current condition, the essentially constant potential is achieved by ensuring a constant composition of solution in contact with the electrode forming a half-cell. Practical reference half-cells are generally non-polarizable electrodes of the 2nd kind (metal | insoluble salt | ion), constructed so that their electrolyte solutions serve as salt bridges to the solutions under investigation."@en ,
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-[ rdf:type owl:Axiom ;
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- ] .
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- ] .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_7760b241_775f_4be1_b827_59f9bde9e5b2
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-
-[ rdf:type owl:Axiom ;
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- ] .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_77be01ef_49bd_4f2e_bec8_eec0894b8562
-:electrochemistry_77be01ef_49bd_4f2e_bec8_eec0894b8562 rdf:type owl:Class ;
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- skos:prefLabel "IncreasingPotentialPulses"@en .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_78a8f60b_10c2_41ee_9946_d35437e1edb5
-:electrochemistry_78a8f60b_10c2_41ee_9946_d35437e1edb5 rdf:type owl:Class ;
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-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_78f75a64_55b6_4243_a35e_3d279c83209b
-:electrochemistry_78f75a64_55b6_4243_a35e_3d279c83209b rdf:type owl:Class ;
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-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_791c1915_a791_4450_acd8_7f94764743b5
-:electrochemistry_791c1915_a791_4450_acd8_7f94764743b5 rdf:type owl:Class .
-
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_79551e01_4bc6_4292_916e_08fe28a84600
-:electrochemistry_79551e01_4bc6_4292_916e_08fe28a84600 rdf:type owl:Class .
-
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_79a8802e_8296_459a_b65d_6e5c79e1bf37
-:electrochemistry_79a8802e_8296_459a_b65d_6e5c79e1bf37 rdf:type owl:Class ;
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-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_79d1b273_58cd_4be6_a250_434817f7c261
-:electrochemistry_79d1b273_58cd_4be6_a250_434817f7c261 rdf:type owl:Class ;
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- emmo:EMMO_26bf1bef_d192_4da6_b0eb_d2209698fb54 "https://www.wikidata.org/wiki/Q120907375" ;
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- "https://www.electropedia.org/iev/iev.nsf/display?openform&ievref=482-02-33" ;
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- rdfs:comment "in secondary cells, the active material is restored to its original state during charge"@en ,
- "material which reacts chemically to produce electric energy when the cell discharges" ;
- skos:altLabel "ActiveElectrochemicalMaterial"@en ,
- "ElectrochemicallyActiveMaterial"@en ;
- skos:prefLabel "ActiveMaterial"@en .
-
-[ rdf:type owl:Axiom ;
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- ] .
-
-[ rdf:type owl:Axiom ;
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- owl:annotatedProperty rdfs:comment ;
- owl:annotatedTarget "in secondary cells, the active material is restored to its original state during charge"@en ;
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- ] .
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-[ rdf:type owl:Axiom ;
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- owl:annotatedTarget "material which reacts chemically to produce electric energy when the cell discharges" ;
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- ] .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_79e12290_d1e5_4c41_916c_18f1e4d7fb51
-:electrochemistry_79e12290_d1e5_4c41_916c_18f1e4d7fb51 rdf:type owl:Class ;
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- ] ;
- emmo:EMMO_967080e5_2f42_4eb2_a3a9_c58143e835f9 "electrode in which the active material is silicon"@en ;
- skos:prefLabel "SiliconElectrode"@en .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_7b811780_7251_481b_a4d3_97d437955099
-:electrochemistry_7b811780_7251_481b_a4d3_97d437955099 rdf:type owl:Class ;
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- ] ;
- emmo:EMMO_967080e5_2f42_4eb2_a3a9_c58143e835f9 "electrode in which the active material is cobalt"@en ;
- skos:prefLabel "CobaltElectrode"@en .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_7b9db6b3_36f0_4b5d_acbb_9284a9054a09
-:electrochemistry_7b9db6b3_36f0_4b5d_acbb_9284a9054a09 rdf:type owl:Class ;
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- ] ;
- emmo:EMMO_967080e5_2f42_4eb2_a3a9_c58143e835f9 "electrode in which the active material is indium"@en ;
- skos:prefLabel "IndiumElectrode"@en .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_7beef5fb_a406_4284_b85a_87d55cf46a0e
-:electrochemistry_7beef5fb_a406_4284_b85a_87d55cf46a0e rdf:type owl:Class ;
- rdfs:subClassOf emmo:EMMO_0f6f0120_c079_4d95_bb11_4ddee05e530e ;
- skos:prefLabel "ElectricCurrentMeasurementResult"@en .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_7cc8b738_3462_4592_ba83_951a8d50fef7
-:electrochemistry_7cc8b738_3462_4592_ba83_951a8d50fef7 rdf:type owl:Class ;
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- ] ;
- emmo:EMMO_967080e5_2f42_4eb2_a3a9_c58143e835f9 "electrode in which the active material is caesium"@en ;
- skos:prefLabel "CaesiumElectrode"@en .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_7f168ebc_4c78_459c_9a39_bddaa57e214c
-:electrochemistry_7f168ebc_4c78_459c_9a39_bddaa57e214c rdf:type owl:Class ;
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- rdfs:comment "proposed by D. C. Grahame in 1947"@en ;
- skos:prefLabel "GrahameModel"@en .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_7f4d74cd_d0a5_4908_9da9_7629fe419917
-:electrochemistry_7f4d74cd_d0a5_4908_9da9_7629fe419917 rdf:type owl:Class ;
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- ] ;
- emmo:EMMO_26bf1bef_d192_4da6_b0eb_d2209698fb54 "https://www.wikidata.org/wiki/Q5829908"@en ;
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- rdfs:comment "This arrangement is largely used in mechanistic studies."@en ;
- skos:altLabel "RRDE"@en ;
- skos:prefLabel "RotatingRingDiskElectrode"@en .
-
-[ rdf:type owl:Axiom ;
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- owl:annotatedTarget "a second annular working electrode positioned concentric with a rotating disc electrode to make a rotating ring-disc electrode (RRDE)"@en ;
- dcterms:source "J. M. Pingarrón et al., Terminology of electrochemical methods of analysis (IUPAC Recommendations 2019), Pure and Applied Chemistry, 4, 92, 2020, 641-694. https://doi.org/10.1515/pac-2018-0109"
- ] .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_7fa74f69_047f_4c86_a02c_e7805d6f5b77
-:electrochemistry_7fa74f69_047f_4c86_a02c_e7805d6f5b77 rdf:type owl:Class ;
- rdfs:subClassOf emmo:EMMO_194e367c_9783_4bf5_96d0_9ad597d48d9a ,
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- ] ;
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- skos:prefLabel "TimeSeries"@en .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_7fdf65c1_b86a_4cbe_8c06_56321b425d4e
-:electrochemistry_7fdf65c1_b86a_4cbe_8c06_56321b425d4e rdf:type owl:Class ;
- rdfs:subClassOf emmo:EMMO_463bcfda_867b_41d9_a967_211d4d437cfb ;
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- skos:prefLabel "TimeMeasurement"@en .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_7ffe1cb6_f87e_4b4a_8ce7_c98e2a584cb1
-:electrochemistry_7ffe1cb6_f87e_4b4a_8ce7_c98e2a584cb1 rdf:type owl:Class ;
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- ] ;
- emmo:EMMO_967080e5_2f42_4eb2_a3a9_c58143e835f9 "electrode in which the active material is ruthenium"@en ;
- skos:prefLabel "RutheniumElectrode"@en .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_80fdbd63_9b7a_462b_a8cb_b50f5f6ab182
-:electrochemistry_80fdbd63_9b7a_462b_a8cb_b50f5f6ab182 rdf:type owl:Class ;
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- ] ;
- emmo:EMMO_967080e5_2f42_4eb2_a3a9_c58143e835f9 "a liquid electrode with an active material of gallium"@en ;
- skos:prefLabel "LiquidGalliumElectrode"@en .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_81833d8a_b03d_4250_be84_6385415beb01
-:electrochemistry_81833d8a_b03d_4250_be84_6385415beb01 rdf:type owl:Class ;
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- ] ;
- emmo:EMMO_50c298c2_55a2_4068_b3ac_4e948c33181f "https://www.electropedia.org/iev/iev.nsf/display?openform&ievref=482-02-34" ;
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- skos:prefLabel "ActiveMaterialMix"@en .
-
-[ rdf:type owl:Axiom ;
- owl:annotatedSource :electrochemistry_81833d8a_b03d_4250_be84_6385415beb01 ;
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- dcterms:source "International Electrotechnical Commission (IEC), IEC 60050 - International Electrotechnical Vocabulary, retrieved from: https://www.electropedia.org"
- ] .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_81b7c95b_8671_4ba7_b4f8_ec19a25096eb
-:electrochemistry_81b7c95b_8671_4ba7_b4f8_ec19a25096eb rdf:type owl:Class ;
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- ] ;
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- skos:prefLabel "DifferentialLinearPulseVoltammetry"@en .
-
-[ rdf:type owl:Axiom ;
- owl:annotatedSource :electrochemistry_81b7c95b_8671_4ba7_b4f8_ec19a25096eb ;
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- dcterms:source "J. M. Pingarrón et al., Terminology of electrochemical methods of analysis (IUPAC Recommendations 2019), Pure and Applied Chemistry, 4, 92, 2020, 641-694. https://doi.org/10.1515/pac-2018-0109"
- ] .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_825a749f_dd07_46fb_947c_db286440911e
-:electrochemistry_825a749f_dd07_46fb_947c_db286440911e rdf:type owl:Class ;
- rdfs:subClassOf emmo:EMMO_463bcfda_867b_41d9_a967_211d4d437cfb ,
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- ] ;
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- skos:altLabel "ElectrochemicalCellVoltageMeasurement"@en ;
- skos:prefLabel "VoltageMeasurement"@en .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_82b66bfe_ec25_417b_ba65_b631ddaaca0e
-:electrochemistry_82b66bfe_ec25_417b_ba65_b631ddaaca0e rdf:type owl:Class ;
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- skos:prefLabel "SaturatedCalomelElectrode"@en .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_82c70935_0aea_454b_92bf_17fb0b488012
-:electrochemistry_82c70935_0aea_454b_92bf_17fb0b488012 rdf:type owl:Class ;
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- ] ;
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- skos:altLabel "ZnOElectrode"@en ;
- skos:prefLabel "ZincOxideElectrode"@en .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_82fef384_8eec_4765_b707_5397054df594
-:electrochemistry_82fef384_8eec_4765_b707_5397054df594 rdf:type owl:Class ;
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- skos:altLabel "ElectronicallyConductiveElectrodeAdditive"@en ;
- skos:prefLabel "ConductiveAdditive"@en .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_83d2c2d4_ffa9_42f4_9264_a0c59c657607
-:electrochemistry_83d2c2d4_ffa9_42f4_9264_a0c59c657607 rdf:type owl:Class ;
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- skos:altLabel "CellReversal"@en ;
- skos:prefLabel "PolarityReversal"@en .
-
-[ rdf:type owl:Axiom ;
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- dcterms:source "International Electrotechnical Commission (IEC), IEC 60050 - International Electrotechnical Vocabulary, retrieved from: https://www.electropedia.org"
- ] .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_83ee23b3_2f5c_4afa_b972_ac85e91d7306
-:electrochemistry_83ee23b3_2f5c_4afa_b972_ac85e91d7306 rdf:type owl:Class ;
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- emmo:EMMO_967080e5_2f42_4eb2_a3a9_c58143e835f9 "potential of a platinum electrode in 1 M acid solution."@en ;
- rdfs:comment "hydrogen gas at 1 atm pressures is bubbled through the acid solution"@en ;
- skos:altLabel "NHE"@en ;
- skos:prefLabel "NormalHydrogenElectrode"@en .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_83f2b1e9_cb67_4dbf_977f_ba54bbae374f
-:electrochemistry_83f2b1e9_cb67_4dbf_977f_ba54bbae374f rdf:type owl:Class ;
- rdfs:subClassOf :electrochemistry_78a8f60b_10c2_41ee_9946_d35437e1edb5 ,
- :electrochemistry_a9873d3d_945b_40ba_b9cd_8dfb64cec88f ;
- emmo:EMMO_50c298c2_55a2_4068_b3ac_4e948c33181f "https://www.electropedia.org/iev/iev.nsf/display?openform&ievref=482-05-38"@en ;
- emmo:EMMO_967080e5_2f42_4eb2_a3a9_c58143e835f9 "charge during which the electric current is maintained at a constant value regardless of the battery voltage or temperature"@en ;
- skos:altLabel "GalvanostaticCharging"@en ;
- skos:prefLabel "ConstantCurrentCharge"@en .
-
-[ rdf:type owl:Axiom ;
- owl:annotatedSource :electrochemistry_83f2b1e9_cb67_4dbf_977f_ba54bbae374f ;
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- ] .
-
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_84d37a37_88bd_47db_9425_31f73a81d38c
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_85e39686_9658_4c74_bb91_a935704c174a
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_865a40fc_2187_4549_a7e1_37aa2458448f
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- ] .
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- ] .
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_86be0987_5e21_43ec_b975_8f679999d328
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- ] .
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_871bc4a4_2d17_4b88_9b0f_7ab85f14afea
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- ] .
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_872b11e1_8bb3_4a2a_af90_bbaa0055d01e
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_88100e2c_0f6e_4483_afbf_30029a6702c6
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_885b462e_f6bc_412d_8b94_9425e13af0c7
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- ] .
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_885ffc4d_2b29_42d6_8597_6fc879c21d60
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_88d2d4bc_4244_4419_a260_ad099a62d580
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_8968eb7a_9a65_4286_a596_c31b998df329
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_898971cb_a9fc_4955_8abf_5d7163a9fe6c
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_8a1c9a7b_978c_4421_a9c1_d0b07b42aab9
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_8a5083b0_cd23_4f8c_99e8_b9ccd6f9f3a2
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-[ rdf:type owl:Axiom ;
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- ] .
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_8ab1e656_38ff_48e6_ab09_293d76bc9044
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_8b40856f_1ca2_4137_9616_7fb624671909
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_8ba8ec72_abd0_49eb_a06f_83fe5da108f4
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_8c71739c_27c1_4d19_a0ff_02545296af43
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- ] .
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_8ca00b45_5ba6_48a0_aaf6_abd959a7238b
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-
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_8d3bf304_78e4_4e99_abe1_6ab429e44ed1
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- rdfs:comment "a sealed cell may be equipped with a safety device to prevent a dangerously high internal pressure and is designed to operate during its life in its original sealed state"@en ;
- skos:prefLabel "SealedCell"@en .
-
-[ rdf:type owl:Axiom ;
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- ] .
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-[ rdf:type owl:Axiom ;
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- ] .
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-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_900d95fb_863d_4142_a96d_369fb39e2639
-:electrochemistry_900d95fb_863d_4142_a96d_369fb39e2639 rdf:type owl:Class ;
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-[ rdf:type owl:Axiom ;
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- ] .
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-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_90103be0_9096_4f98_89c7_b5db01197858
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-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_9017b8b9_e21e_4961_a3c1_c0aeef3fe795
-:electrochemistry_9017b8b9_e21e_4961_a3c1_c0aeef3fe795 rdf:type owl:Class ;
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-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_904b12e0_4a10_47b0_b7db_592aba215cb6
-:electrochemistry_904b12e0_4a10_47b0_b7db_592aba215cb6 rdf:type owl:Class ;
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-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_9109b3f6_112b_456d_ae45_b82c271c656b
-:electrochemistry_9109b3f6_112b_456d_ae45_b82c271c656b rdf:type owl:Class ;
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- skos:altLabel "LMFPElectrode"@en ;
- skos:prefLabel "LithiumManganeseIronPhosphateElectrode"@en .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_916b1863_f417_4b94_9407_9d749ada9ed5
-:electrochemistry_916b1863_f417_4b94_9407_9d749ada9ed5 rdf:type owl:Class ;
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- rdfs:comment "historically for the analysis of metal ions, mercury ions were added to the test solution to form a mercury amalgam when reduced. Alternatively, an HMDE or MFE was used and the oxidizing agent added after amalgam formation. However, the toxicity of mercury and its compounds have all but precluded the present-day use of mercury"@en ,
- "the accumulation is similar to that used in stripping voltammetry"@en ,
- "the stripping potentiogram shows staircase curves of potential as a function of time. Frequently, the first derivative is displayed (dE/dt=f(t)), as this produces peak-shaped signals. The time between transitions (peaks) is proportional to the concentration of analyte in the test solution"@en ,
- "the time between changes in potential in step 2 is related to the concentration of analyte in the solution"@en ;
- skos:altLabel "PSA"@en ;
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-
-[ rdf:type owl:Axiom ;
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- dcterms:source "J. M. Pingarrón et al., Terminology of electrochemical methods of analysis (IUPAC Recommendations 2019), Pure and Applied Chemistry, 4, 92, 2020, 641-694. https://doi.org/10.1515/pac-2018-0109"
- ] .
-
-[ rdf:type owl:Axiom ;
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- owl:annotatedTarget "historically for the analysis of metal ions, mercury ions were added to the test solution to form a mercury amalgam when reduced. Alternatively, an HMDE or MFE was used and the oxidizing agent added after amalgam formation. However, the toxicity of mercury and its compounds have all but precluded the present-day use of mercury"@en ;
- dcterms:source "J. M. Pingarrón et al., Terminology of electrochemical methods of analysis (IUPAC Recommendations 2019), Pure and Applied Chemistry, 4, 92, 2020, 641-694. https://doi.org/10.1515/pac-2018-0109"
- ] .
-
-[ rdf:type owl:Axiom ;
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- owl:annotatedTarget "the accumulation is similar to that used in stripping voltammetry"@en ;
- dcterms:source "J. M. Pingarrón et al., Terminology of electrochemical methods of analysis (IUPAC Recommendations 2019), Pure and Applied Chemistry, 4, 92, 2020, 641-694. https://doi.org/10.1515/pac-2018-0109"
- ] .
-
-[ rdf:type owl:Axiom ;
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- owl:annotatedTarget "the stripping potentiogram shows staircase curves of potential as a function of time. Frequently, the first derivative is displayed (dE/dt=f(t)), as this produces peak-shaped signals. The time between transitions (peaks) is proportional to the concentration of analyte in the test solution"@en ;
- dcterms:source "J. M. Pingarrón et al., Terminology of electrochemical methods of analysis (IUPAC Recommendations 2019), Pure and Applied Chemistry, 4, 92, 2020, 641-694. https://doi.org/10.1515/pac-2018-0109"
- ] .
-
-[ rdf:type owl:Axiom ;
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- ] .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_92147e31_d015_4889_a092_04fbab033f15
-:electrochemistry_92147e31_d015_4889_a092_04fbab033f15 rdf:type owl:Class ;
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-[ rdf:type owl:Axiom ;
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- ] .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_94209cd8_f68f_40e6_ac70_cfb97a16e593
-:electrochemistry_94209cd8_f68f_40e6_ac70_cfb97a16e593 rdf:type owl:Class ;
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-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_94497aca_52a0_48e3_9b76_157b050e35b3
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- rdfs:comment "very common case for lithim metal cells"@en ;
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-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_952c8c3a_df21_4dd1_8d8c_380e43dc8c78
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-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_95e4aa95_b7e9_40d7_b78e_4d7dcc31093d
-:electrochemistry_95e4aa95_b7e9_40d7_b78e_4d7dcc31093d rdf:type owl:Class ;
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-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_96309fa9_e157_48fe_9fda_41003860a3c0
-:electrochemistry_96309fa9_e157_48fe_9fda_41003860a3c0 rdf:type owl:Class ;
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- "ElectrogeneratedChemiluminescence"@en ;
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-
-[ rdf:type owl:Axiom ;
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- ] .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_9865e4f9_756d_4d94_a6fd_4102ab795f9e
-:electrochemistry_9865e4f9_756d_4d94_a6fd_4102ab795f9e rdf:type owl:Class ;
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-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_98d5101e_cd11_4a0d_b856_6fcd8aad132e
-:electrochemistry_98d5101e_cd11_4a0d_b856_6fcd8aad132e rdf:type owl:Class ;
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-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_990d19b8_672a_4219_a2b3_0a25bfa13f69
-:electrochemistry_990d19b8_672a_4219_a2b3_0a25bfa13f69 rdf:type owl:Class ;
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-
-[ rdf:type owl:Axiom ;
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- ] .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_99475d6c_304c_4d6b_9eca_fbc42f768be5
-:electrochemistry_99475d6c_304c_4d6b_9eca_fbc42f768be5 rdf:type owl:Class ;
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-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_99bdbd45_c3ea_4fb9_ae50_ed1ab6bb1dff
-:electrochemistry_99bdbd45_c3ea_4fb9_ae50_ed1ab6bb1dff rdf:type owl:Class ;
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- skos:altLabel "HybridPulsePowerCharacterisation"@en ,
- "HybridPulsePowerCharacterization"@en ;
- skos:prefLabel "HPPC"@en .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_9a23f61b_fef0_40f8_84f9_2057f90f6a95
-:electrochemistry_9a23f61b_fef0_40f8_84f9_2057f90f6a95 rdf:type owl:Class ;
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- rdfs:comment "8 of these in series are used to form an A23 battery"@en ,
- "rarely used independently"@en ;
- skos:prefLabel "R932"@en .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_9a823d64_9d10_4a29_9cbd_9bbdad7985bc
-:electrochemistry_9a823d64_9d10_4a29_9cbd_9bbdad7985bc rdf:type owl:Class ;
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- "ReactiveElectrode" ;
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-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_9b6853e7_3412_463d_b5a9_82c14acebf7d
-:electrochemistry_9b6853e7_3412_463d_b5a9_82c14acebf7d rdf:type owl:Class ;
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-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_9bc02662_9799_4593_906d_638a841d7352
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-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_9c0e683b_40d7_4786_b31f_910dd68b2ea8
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_9c73aff8_1c82_4116_a6be_78e21982b69d
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-[ rdf:type owl:Axiom ;
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- ] .
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-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_9ceffffd_b918_48c2_aad9_5db16fa6149d
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- rdfs:comment "often used in wrist watches and automobile remotes"@en ;
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-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_9d7e5fea_a49a_4a19_a8de_8e24c60e420c
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- rdfs:comment "\\Lambda_m^0 = (F^2/(R*T)) * (v_{+} * z_{+}^2 * D_{+} + v_{–} * z_{–}^2 * D_{–})"@en ;
- rdfs:seeAlso "KohlrauschsLaw"@en ;
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-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_9da958fc_f76d_4654_8a78_99b5f98c118c
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-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_9e24d403_8531_416e_a9ec_d1ec5508bcb1
-:electrochemistry_9e24d403_8531_416e_a9ec_d1ec5508bcb1 rdf:type owl:Class ;
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_9ee6e728_e8f5_4b36_a045_d63da69dfc85
-:electrochemistry_9ee6e728_e8f5_4b36_a045_d63da69dfc85 rdf:type owl:Class ;
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-[ rdf:type owl:Axiom ;
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- ] .
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_9f1ffb54_4403_4541_98c1_3a821c6d060f
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-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_9f466223_e20a_474d_ac4d_6d4b6131c275
-:electrochemistry_9f466223_e20a_474d_ac4d_6d4b6131c275 rdf:type owl:Class ;
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-[ rdf:type owl:Axiom ;
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- dcterms:source "J. M. Pingarrón et al., Terminology of electrochemical methods of analysis (IUPAC Recommendations 2019), Pure and Applied Chemistry, 4, 92, 2020, 641-694. https://doi.org/10.1515/pac-2018-0109"
- ] .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_9fd49892_cf6d_482e_a6c3_5f763948ec29
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- rdfs:comment "they can be used in electrocapillarity, voltammetry, and impedance measurements"@en ;
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-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_a0580fa9_5073_44af_b33e_7adbc83892d0
-:electrochemistry_a0580fa9_5073_44af_b33e_7adbc83892d0 rdf:type owl:Class ;
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- emmo:EMMO_967080e5_2f42_4eb2_a3a9_c58143e835f9 "electrode reaction in which oxidation occurs at the anode"@en ;
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- "electrode reaction involving an electrochemical oxidation"@en ;
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-[ rdf:type owl:Axiom ;
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- ] .
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-[ rdf:type owl:Axiom ;
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- ] .
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-[ rdf:type owl:Axiom ;
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- ] .
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-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_a05e7945_c942_45cf_812c_c9a595d15888
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-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_a0a619d7_da95_41f0_8bc3_9c19d636d543
-:electrochemistry_a0a619d7_da95_41f0_8bc3_9c19d636d543 rdf:type owl:Class ;
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- ] .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_a0fcb105_587f_45d8_a89a_46dc8f745069
-:electrochemistry_a0fcb105_587f_45d8_a89a_46dc8f745069 rdf:type owl:Class ;
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-[ rdf:type owl:Axiom ;
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-[ rdf:type owl:Axiom ;
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- ] .
-
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_a10ede13_c895_4f56_a728_b1aab512b31b
-:electrochemistry_a10ede13_c895_4f56_a728_b1aab512b31b rdf:type owl:Class ;
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_a1ec9e3c_c624_4848_af13_89a6bc54d77c
-:electrochemistry_a1ec9e3c_c624_4848_af13_89a6bc54d77c rdf:type owl:Class ;
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- ] .
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_a277e420_2483_44d5_a2bc_4e421dea231a
-:electrochemistry_a277e420_2483_44d5_a2bc_4e421dea231a rdf:type owl:Class ;
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_a2b01d05_b472_4cf5_b388_e0914db56324
-:electrochemistry_a2b01d05_b472_4cf5_b388_e0914db56324 rdf:type owl:Class ;
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- skos:altLabel "ComplexPlanePlot"@en ,
- "NyquistDiagram"@en ;
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-
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_a2b92d2e_4431_411e_8da5_a4c08bac2c0e
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_a6a69e90_06b5_45b1_83cf_7c0bf39b2914
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_a76072fe_ca6e_48ad_8b4a_ab98a2bc9abb
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_a9873d3d_945b_40ba_b9cd_8dfb64cec88f
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_a9fc3f77_e48e_4bce_b118_044d608722f6
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_aa5ed981_c11b_4c4f_b1fd_8c432e009484
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-
-[ rdf:type owl:Axiom ;
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- ] .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_abffe8cd_14d3_4437_84e6_5dfc61b057e8
-:electrochemistry_abffe8cd_14d3_4437_84e6_5dfc61b057e8 rdf:type owl:Class ;
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-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_ac6c2371_995a_4fcb_89a2_15cb6615741e
-:electrochemistry_ac6c2371_995a_4fcb_89a2_15cb6615741e rdf:type owl:Class ;
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-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_ac9723d1_bac0_4109_874e_32849de9299b
-:electrochemistry_ac9723d1_bac0_4109_874e_32849de9299b rdf:type owl:Class ;
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- skos:altLabel "ElectricalDoubleLayerModel"@en ,
- "ElectricalPolarizationLayerModel"@en ;
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-[ rdf:type owl:Axiom ;
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- ] .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_acdeaa89_0e99_4941_8821_d5dea3d34912
-:electrochemistry_acdeaa89_0e99_4941_8821_d5dea3d34912 rdf:type owl:Class ;
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-[ rdf:type owl:Axiom ;
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- ] .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_ae56cce3_7a7c_4e53_bb58_31e0d642d47e
-:electrochemistry_ae56cce3_7a7c_4e53_bb58_31e0d642d47e rdf:type owl:Class ;
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- skos:prefLabel "FlameArrestorVent"@en .
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-[ rdf:type owl:Axiom ;
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- dcterms:source "International Electrotechnical Commission (IEC), IEC 60050 - International Electrotechnical Vocabulary, retrieved from: https://www.electropedia.org"
- ] .
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-[ rdf:type owl:Axiom ;
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- ] .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_aecc6094_c6a5_4a36_a825_8a497a2ae112
-:electrochemistry_aecc6094_c6a5_4a36_a825_8a497a2ae112 rdf:type owl:Class .
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_af92a3ae_e870_4676_9ae7_cda277b1e6e1
-:electrochemistry_af92a3ae_e870_4676_9ae7_cda277b1e6e1 rdf:type owl:Class ;
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-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_aff732a9_238a_4734_977c_b2ba202af126
-:electrochemistry_aff732a9_238a_4734_977c_b2ba202af126 rdf:type owl:Class ;
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- "https://www.electropedia.org/iev/iev.nsf/display?openform&ievref=482-02-06" ;
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- skos:altLabel "PositivePlate"@en ;
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-[ rdf:type owl:Axiom ;
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- ] .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_b0a0dddb_d942_4af2_b6a7_d7165f4253f1
-:electrochemistry_b0a0dddb_d942_4af2_b6a7_d7165f4253f1 rdf:type owl:Class ;
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- rdfs:comment "The CPE was first described by Adams in 1958. A CPE is typically housed in a Teflon holder, contacted by a conductive wire (occasionally a piston is used to renew the surface by extrusion of the used paste). Problems are long-term stability of the paste and that the binder can influence its properties."@en ,
- "These electrodes can easily be chemically modified by the incorporation of reagents (electrocatalysts, redox mediators, complexation agents, enzymes, etc.) and by the attachment of micro- or nanoparticles to prepare electrochemical sensors for analytical applications."@en ;
- skos:altLabel "CPE"@en ;
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-[ rdf:type owl:Axiom ;
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- dcterms:source "J. M. Pingarrón et al., Terminology of electrochemical methods of analysis (IUPAC Recommendations 2019), Pure and Applied Chemistry, 4, 92, 2020, 641-694. https://doi.org/10.1515/pac-2018-0109"
- ] .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_b1cf9fee_2164_4f95_8204_90f717373a8a
-:electrochemistry_b1cf9fee_2164_4f95_8204_90f717373a8a rdf:type owl:Class ;
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-
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_b2d11f0d_c1b0_4476_8d17_03b73d31e01f
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- skos:prefLabel "AsymmetricMembrane"@en .
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-[ rdf:type owl:Axiom ;
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- dcterms:source "IUPAC. Compendium of Chemical Terminology, 2nd ed. (the \"Gold Book\"). Compiled by A. D. McNaught and A. Wilkinson. Blackwell Scientific Publications, Oxford (1997). Online version (2019-) created by S. J. Chalk. ISBN 0-9678550-9-8. https://doi.org/10.1351/goldbook."
- ] .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_b3a6d552_b38e_47ad_9d48_e8b77035d63e
-:electrochemistry_b3a6d552_b38e_47ad_9d48_e8b77035d63e rdf:type owl:Class ;
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- rdfs:comment "The conductivity of a solution depends on the concentration and nature of ions present."@en ;
- skos:prefLabel "Conductometry"@en .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_b3b3868f_6edd_4ce8_a984_08f9cf391f90
-:electrochemistry_b3b3868f_6edd_4ce8_a984_08f9cf391f90 rdf:type owl:Class ;
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-
-[ rdf:type owl:Axiom ;
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- dcterms:source "International Electrotechnical Commission (IEC), IEC 60050 - International Electrotechnical Vocabulary, retrieved from: https://www.electropedia.org"
- ] .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_b3e56313_417c_42b7_a934_0018ce2dffc2
-:electrochemistry_b3e56313_417c_42b7_a934_0018ce2dffc2 rdf:type owl:Class ;
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- rdfs:comment "Differential pulse polarography is differential pulse voltammetry in which a dropping mercury electrode is used as the working electrode. A pulse is applied before the mechani- cally enforced end of the drop and the current is sampled twice: just before the onset of the pulse and just before its end. The pulse width is usually 10 to 20 % of the drop life. The drop dislodgement is synchronized with current sampling, which is carried out as in DPV."@en ,
- "The ratio of faradaic current to charging current is enhanced and the negative influence of charging current is partially eliminated in the same way as in normal pulse voltammetry (NPV). Moreover, subtraction of the charging current sampled before the application of the pulse further decreases its negative influence. Due to the more enhanced signal (faradaic current) to noise (charging current) ratio, the limit of detection is lower than with NPV."@en ,
- "The sensitivity of DPV depends on the reversibility of the electrode reaction of the analyte."@en ;
- skos:altLabel "DPV"@en ;
- skos:prefLabel "DifferentialPulseVoltammetry"@en .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_b3eb8c65_5644_45e3_9e17_0be6277c7962
-:electrochemistry_b3eb8c65_5644_45e3_9e17_0be6277c7962 rdf:type owl:Class ;
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-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_b442217f_02f6_4991_aadf_22d81369223c
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-
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_b49e2355_392f_4e83_b630_7ff4581d767b
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- skos:prefLabel "DifferentialPotentialPulse"@en .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_b5039bc8_f595_4797_908a_7e86131fbde4
-:electrochemistry_b5039bc8_f595_4797_908a_7e86131fbde4 rdf:type owl:Class ;
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- emmo:EMMO_fe015383_afb3_44a6_ae86_043628697aa2 "https://doi.org/10.1515/pac-2018-0109"@en ;
- rdfs:comment "Historically for the analysis of metal ions, mercury ions were added to the test solution to form a mercury amalgam when reduced. Alternatively, an HMDE or MFE was used and the oxidizing agent added after amalgam formation. However, the toxicity of mercury and its compounds have all but precluded the present-day use of mercury."@en ,
- "The accumulation is similar to that used in stripping voltammetry."@en ,
- "The stripping potentiogram shows staircase curves of potential as a function of time. Fre- quently, the first derivative is displayed (dE/dt = f(t)), as this produces peak-shaped signals. The time between transitions (peaks) is proportional to the concentration of analyte in the test solution."@en ;
- skos:altLabel "PSA"@en ;
- skos:prefLabel "PotentiometricStrippingAnalysis"@en .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_b525a629_a679_464f_bc5b_b49d2fc82686
-:electrochemistry_b525a629_a679_464f_bc5b_b49d2fc82686 rdf:type owl:Class ;
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- rdfs:comment """Formed, in theory, by two 1 cm2 reversible electrodes spaced 1 cm apart, providing a uniform distribution of electrical field. In practice, however, a number
-of other configurations are used."""@en ;
- skos:prefLabel "ConductivityCell"@en .
-
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- ] .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_b56a95e6_eea5_4a58_99aa_045fd28e75d3
-:electrochemistry_b56a95e6_eea5_4a58_99aa_045fd28e75d3 rdf:type owl:Class ;
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- skos:altLabel "R64" ;
- skos:prefLabel "R527"@en .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_b5e91259_cd97_4ed6_9ab2_4b18ef68a35a
-:electrochemistry_b5e91259_cd97_4ed6_9ab2_4b18ef68a35a rdf:type owl:Class ;
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-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_b5ea31c9_bb10_4276_980e_c3eceb1efc82
-:electrochemistry_b5ea31c9_bb10_4276_980e_c3eceb1efc82 rdf:type owl:Class ;
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- skos:prefLabel "ElectrochemicalConstituent"@en .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_b6319c74_d2ce_48c0_a75a_63156776b302
-:electrochemistry_b6319c74_d2ce_48c0_a75a_63156776b302 rdf:type owl:Class ;
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- rdfs:comment "at an anode, electrons are produced in a galvanic cell or extracted in an electrolytic cell"@en ,
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- "the concepts of “anode” and “cathode” are related only to the direction of electron flow, not to the polarity of the electrodes"@en ;
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-[ rdf:type owl:Axiom ;
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- ] .
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-[ rdf:type owl:Axiom ;
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- owl:annotatedTarget "at an anode, electrons are produced in a galvanic cell or extracted in an electrolytic cell"@en ;
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- ] .
-
-[ rdf:type owl:Axiom ;
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- ] .
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-[ rdf:type owl:Axiom ;
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- ] .
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-[ rdf:type owl:Axiom ;
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- ] .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_b76a778f_253f_4210_a67f_fb6444d0de26
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- rdfs:comment "Other kinds of mercury drop electrodes are the static mercury drop electrode (SMDE), in which a drop is held at constant radius before being mechanically knocked off, and the hanging mercury drop elec- trode (HMDE), in which the whole experiment is performed on a single drop of mercury."@en ,
- "The DME was introduced by Jaroslav Heyrovský (1890 – 1967). A drop is renewed every few seconds. Many metals amalgamate with mercury so that in the analysis of metal ions in aqueous solution the DME maintains a fresh surface throughout."@en ;
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-[ rdf:type owl:Axiom ;
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- ] .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_b79d4f9e_5727_4895_8d7f_5fc18d83eb90
-:electrochemistry_b79d4f9e_5727_4895_8d7f_5fc18d83eb90 rdf:type owl:Class ;
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-[ rdf:type owl:Axiom ;
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-[ rdf:type owl:Axiom ;
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- ] .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_b812e9d0_7c58_4455_b3e7_6847f10c8e8a
-:electrochemistry_b812e9d0_7c58_4455_b3e7_6847f10c8e8a rdf:type owl:Class ;
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-[ rdf:type owl:Axiom ;
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- dcterms:source "IEEE Standard Glossary of Stationary Battery Terminology (2016), https://doi.org/10.1109/IEEESTD.2016.7552407"
- ] .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_b851c7e9_60bf_4d3d_abe1_8d08d3d85124
-:electrochemistry_b851c7e9_60bf_4d3d_abe1_8d08d3d85124 rdf:type owl:Class ;
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-[ rdf:type owl:Axiom ;
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- ] .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_b8dc138f_8024_4f15_8350_192425d23a4d
-:electrochemistry_b8dc138f_8024_4f15_8350_192425d23a4d rdf:type owl:Class ;
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- skos:altLabel "metal electrode in which the active material is nickel"@en ;
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-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_b91180e7_97ae_49e2_bf82_5bf720e7fa66
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- ] .
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-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_b99cff7f_b13f_4075_aa88_62c04f8daacc
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-
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_b9a72491_8a50_4cac_a131_1e95d72b57ee
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- "ElectricCurrentPotentialCurve"@en ;
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-[ rdf:type owl:Axiom ;
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- 92.4 (2020): 641-694. DOI: https://doi.org/10.1515/pac-2018-0109"""
- ] .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_b9bece97_a511_4cb9_88a2_b5bd5c5e5d74
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- ] .
-
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_bb2faf17_b819_4876_b17f_fa82917cf85d
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-
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_bb710d71_98fa_48a1_85bc_d8f1ef2200da
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-
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_bbae1ef4_0a95_4e7d_9932_1bf939129eef
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- 92.4 (2020): 641-694. DOI: https://doi.org/10.1515/pac-2018-0109"""
- ] .
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_bbb1d95b_72d1_44f6_b07e_a3d7d41ac215
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_bed5b5f9_b89d_45e3_a8c2_81b70ae21847
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_bfbefff0_4df5_47c2_9943_5f42cf268e9e
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_c05692eb_ae92_4e03_b355_f259f9089cb8
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_c14ae9b3_e4ba_4129_a7b6_afd2d4571de6
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_c183f697_8995_477c_9ccd_5c12d98e3633
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_c2024587_3237_474e_8df9_91d10db2df47
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_c231227b_f318_4e59_ad90_6e91072903ed
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_c3f4b34a_0e2c_46f3_baab_4ebd2682d26f
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_c4a778c7_33da_4e1a_960e_402a210bfeff
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_c55ec02c_b727_4df1_97ce_91d7bb5d5e91
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_c5f51531_1452_4654_82e5_0505491c2c7d
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_c5fd7b61_40f1_4225_a173_5caa3c5f4773
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_c610d869_cc03_44f0_b40d_ca86e945b9c9
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_c63baed9_48dd_4b5c_9e8c_03011010ffb6
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_c6d6c0a1_a06b_437a_978f_a469d3071ca9
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_c74bb11c_e875_4112_b9cf_00d0890ef1f5
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_c831d963_629a_41ab_850f_97fb6841b739
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-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_c91164b8_5e56_4c94_bad1_d7ada576b0e7
-:electrochemistry_c91164b8_5e56_4c94_bad1_d7ada576b0e7 rdf:type owl:Class ;
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- ] .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_c936bfbe_7a0c_4185_a317_db1ce2c3c38c
-:electrochemistry_c936bfbe_7a0c_4185_a317_db1ce2c3c38c rdf:type owl:Class ;
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- "https://www.wikidata.org/wiki/Q15152527" ;
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-[ rdf:type owl:Axiom ;
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- ] .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_c94c041b_8ea6_43e7_85cc_d2bce7785b4c
-:electrochemistry_c94c041b_8ea6_43e7_85cc_d2bce7785b4c rdf:type owl:Class ;
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- skos:altLabel "NegativePlate"@en ;
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- ] .
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-[ rdf:type owl:Axiom ;
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- ] .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_ca0527c1_f682_4eea_aca5_f3ae66a9ddce
-:electrochemistry_ca0527c1_f682_4eea_aca5_f3ae66a9ddce rdf:type owl:Class ;
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- rdfs:comment "stores energy electrochemically via Faradaic mechanisms"@en ;
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-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_ca48d41c_f5ea_4bf8_84ce_2d67fd9dad98
-:electrochemistry_ca48d41c_f5ea_4bf8_84ce_2d67fd9dad98 rdf:type owl:Class ;
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_ca4d9efc_70be_441e_b358_d927aa4c36c4
-:electrochemistry_ca4d9efc_70be_441e_b358_d927aa4c36c4 rdf:type owl:Class ;
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-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_cab66388_3feb_4101_82bc_f4441f0b60e3
-:electrochemistry_cab66388_3feb_4101_82bc_f4441f0b60e3 rdf:type owl:Class ;
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-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_cb223440_51bd_4f16_a536_96ec408e7de4
-:electrochemistry_cb223440_51bd_4f16_a536_96ec408e7de4 rdf:type owl:Class ;
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-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_cb3c0663_5962_4b79_8e72_1e8242af3977
-:electrochemistry_cb3c0663_5962_4b79_8e72_1e8242af3977 rdf:type owl:Class ;
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-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_cba03815_eaa8_493d_b9e4_52856b57fde6
-:electrochemistry_cba03815_eaa8_493d_b9e4_52856b57fde6 rdf:type owl:Class ;
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-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_cc0468a2_1851_4d3d_92a6_b4059db0c056
-:electrochemistry_cc0468a2_1851_4d3d_92a6_b4059db0c056 rdf:type owl:Class ;
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-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_cc1f854a_ba6c_436e_bd18_c8b9159bbf52
-:electrochemistry_cc1f854a_ba6c_436e_bd18_c8b9159bbf52 rdf:type owl:Class ;
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- ] .
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_cc4e178c_bc1f_4502_b6c2_33f304ef6bab
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- ] ;
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-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_ccdfed06_6d24_47e4_98af_ce3ffe7bd09e
-:electrochemistry_ccdfed06_6d24_47e4_98af_ce3ffe7bd09e rdf:type owl:Class .
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_cd1b7943_42ce_46bd_8588_1c3161268270
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-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_cd7d24a5_db31_4d76_97d9_367c809f099e
-:electrochemistry_cd7d24a5_db31_4d76_97d9_367c809f099e rdf:type owl:Class ;
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- "ElectricPotentialTimePlot"@en ,
- "PotentialTimeCurve"@en ;
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-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_ce4352a7_f0b1_4f27_9184_6deebf8bbe96
-:electrochemistry_ce4352a7_f0b1_4f27_9184_6deebf8bbe96 rdf:type owl:Class ;
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-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_ce74d2dc_d496_4116_b2fb_3e83d88bc744
-:electrochemistry_ce74d2dc_d496_4116_b2fb_3e83d88bc744 rdf:type owl:Class .
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_cf6eebea_24f6_48d2_8389_65eba0393762
-:electrochemistry_cf6eebea_24f6_48d2_8389_65eba0393762 rdf:type owl:Class ;
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-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_cff80dd5_19a9_4357_8fb9_410a978153e2
-:electrochemistry_cff80dd5_19a9_4357_8fb9_410a978153e2 rdf:type owl:Class ;
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-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_d0a26dc2_fde9_4a11_ac26_7c18499d28a5
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-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_d1042a12_e4be_4992_86cb_59420ef4e05c
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-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_d11b0e66_c35b_4da7_80a1_037ce89b77fb
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-
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_d16eec87_c646_4566_bda6_7d3357cda061
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_d2726dd5_69f0_4cb1_bd3c_4c48813e57e7
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-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_d2f6f1a6_4dee_4c5e_9a69_32b9fe990d2f
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- skos:prefLabel "CycleDomainMatrix"@en .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_d30d9de0_b9bf_4919_a022_0394df9c3672
-:electrochemistry_d30d9de0_b9bf_4919_a022_0394df9c3672 rdf:type owl:Class ;
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- emmo:EMMO_967080e5_2f42_4eb2_a3a9_c58143e835f9 "electrochemical measurement method of the complex impedance of an electrochemical system as a function of the frequency of a small amplitude (normally 5 to 10 mV) sinusoidal voltage perturbation superimposed on a fixed value of applied potential or on the open circuit potential"@en ;
- emmo:EMMO_fe015383_afb3_44a6_ae86_043628697aa2 "https://doi.org/10.1515/pac-2018-0109"@en ;
- rdfs:comment "Impedimetric sensors are based on measurement of a concentration-dependent parameter taken from analysis of the respective electrochemical impedance spectra, or from the impedance magnitudes at a chosen fixed frequency."@en ,
- "The sinusoidal current response lags behind the sinusoidal voltage perturbation by a phase angle φ. Resistances (e.g. to charge transfer) give a response in phase with the voltage perturbation; capacitances (e.g. double layer) give a response 90° out of phase; combinations of resistances and capacitances give phase angles between 0 and 90°. Plots of the out of phase vs. the in phase component of the impedance for all the frequencies tested are called complex plane (or Nyquist) plots. Plots of the phase angle and the magnitude of the impedance vs. the logarithm of perturbation frequency are called Bode diagrams. Complex plane plots are the more commonly used for electrochemical sensors."@en ;
- skos:altLabel "EIS"@en ;
- skos:prefLabel "ElectrochemicalImpedanceSpectroscopy"@en .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_d359386f_ae2d_4ad4_9616_464e2111b67d
-:electrochemistry_d359386f_ae2d_4ad4_9616_464e2111b67d rdf:type owl:Class ;
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- skos:prefLabel "StaircasePotentialRamp"@en .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_d3e2d213_d078_4b9a_8beb_62f063e57d69
-:electrochemistry_d3e2d213_d078_4b9a_8beb_62f063e57d69 rdf:type owl:Class ;
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- ] ;
- emmo:EMMO_26bf1bef_d192_4da6_b0eb_d2209698fb54 "https://www.wikidata.org/wiki/Q5074261" ;
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- emmo:EMMO_967080e5_2f42_4eb2_a3a9_c58143e835f9 "set of operations that is carried out on a secondary cell or battery and is repeated regularly in the same sequence."@en ;
- emmo:EMMO_c84c6752_6d64_48cc_9500_e54a3c34898d "https://en.wikipedia.org/wiki/Charge_cycle"@en ;
- rdfs:comment "in a secondary battery these operations may consist of a sequence of a discharge followed by a charge or a charge followed by a discharge under specified conditions"@en ,
- "this sequence may include rest periods"@en ;
- skos:altLabel "ChargeCycle"@en ,
- "ElectrochemicalCycling"@en ;
- skos:prefLabel "Cycling"@en .
-
-[ rdf:type owl:Axiom ;
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- dcterms:source "International Electrotechnical Commission (IEC), IEC 60050 - International Electrotechnical Vocabulary, retrieved from: https://www.electropedia.org"
- ] .
-
-[ rdf:type owl:Axiom ;
- owl:annotatedSource :electrochemistry_d3e2d213_d078_4b9a_8beb_62f063e57d69 ;
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- owl:annotatedTarget "in a secondary battery these operations may consist of a sequence of a discharge followed by a charge or a charge followed by a discharge under specified conditions"@en ;
- dcterms:source "International Electrotechnical Commission (IEC), IEC 60050 - International Electrotechnical Vocabulary, retrieved from: https://www.electropedia.org"
- ] .
-
-[ rdf:type owl:Axiom ;
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- owl:annotatedTarget "this sequence may include rest periods"@en ;
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- ] .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_d48ea516_5cac_4f86_bc88_21b6276c0938
-:electrochemistry_d48ea516_5cac_4f86_bc88_21b6276c0938 rdf:type owl:Class ;
- rdfs:subClassOf :electrochemistry_3d805c2a_4801_440e_9e4d_0fa5585c76ae ;
- emmo:EMMO_26bf1bef_d192_4da6_b0eb_d2209698fb54 "https://www.wikidata.org/wiki/Q903846" ;
- emmo:EMMO_6dd685dd_1895_46e4_b227_be9f7d643c25 "https://dbpedia.org/page/Butler%E2%80%93Volmer_equation"@en ;
- emmo:EMMO_967080e5_2f42_4eb2_a3a9_c58143e835f9 "a phenomenological model for electrode kinetics, describing the relation between the electrode current from an electrochemical charge-transfer reaction and the surface overpotential of the electrode"@en ;
- emmo:EMMO_c84c6752_6d64_48cc_9500_e54a3c34898d "https://en.wikipedia.org/wiki/Butler%E2%80%93Volmer_equation"@en ;
- rdfs:comment "i = i0 * (exp(alpha*n*F*eta/(R*T)) – exp(-(1-alpha)*n*F*eta/(R*T)))" ;
- skos:altLabel "ButlerVolmerApproximation"@en ,
- "ErdeyGruzVolmerEquation"@en ;
- skos:prefLabel "ButlerVolmerEquation"@en .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_d5da9948_e95b_4f12_a2d2_10a48f390c52
-:electrochemistry_d5da9948_e95b_4f12_a2d2_10a48f390c52 rdf:type owl:Class ;
- rdfs:subClassOf emmo:EMMO_52bbaaee_1145_4be3_8a5c_b366851ea1b9 ;
- emmo:EMMO_50c298c2_55a2_4068_b3ac_4e948c33181f "https://www.electropedia.org/iev/iev.nsf/display?openform&ievref=482-03-40" ;
- emmo:EMMO_967080e5_2f42_4eb2_a3a9_c58143e835f9 "arrangement of cells or batteries wherein parallel connected cells or batteries are connected in series."@en ;
- skos:prefLabel "ParallelSeriesConnection"@en .
-
-[ rdf:type owl:Axiom ;
- owl:annotatedSource :electrochemistry_d5da9948_e95b_4f12_a2d2_10a48f390c52 ;
- owl:annotatedProperty emmo:EMMO_967080e5_2f42_4eb2_a3a9_c58143e835f9 ;
- owl:annotatedTarget "arrangement of cells or batteries wherein parallel connected cells or batteries are connected in series."@en ;
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- ] .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_d5f67a0c_ed56_479d_9b68_6003142f98b0
-:electrochemistry_d5f67a0c_ed56_479d_9b68_6003142f98b0 rdf:type owl:Class ;
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- skos:prefLabel "R1616"@en .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_d61deb36_b397_4811_bf7a_66d8e4578c6e
-:electrochemistry_d61deb36_b397_4811_bf7a_66d8e4578c6e rdf:type owl:Class ;
- rdfs:subClassOf :electrochemistry_a53d6dee_1547_4854_a311_805b4d557298 ;
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- skos:prefLabel "SinusoidalCurrentWaveform"@en .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_d67a0921_15e4_4c73_804e_97b2d66452b8
-:electrochemistry_d67a0921_15e4_4c73_804e_97b2d66452b8 rdf:type owl:Class ;
- rdfs:subClassOf :electrochemistry_3979cd56_6256_414d_966c_7f723bf71e37 ;
- emmo:EMMO_967080e5_2f42_4eb2_a3a9_c58143e835f9 "a coin case with a nominal diameter of 9.5 mm and a height of 3.6 mm"@en ;
- skos:altLabel "R45" ;
- skos:prefLabel "R936"@en .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_d8a78cd2_8107_46dd_a198_0b64676efc00
-:electrochemistry_d8a78cd2_8107_46dd_a198_0b64676efc00 rdf:type owl:Class ;
- rdfs:subClassOf emmo:EMMO_f76884f7_964e_488e_9bb7_1b2453e9e817 ;
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- emmo:EMMO_967080e5_2f42_4eb2_a3a9_c58143e835f9 "conductor of electricity used for carrying current between components in an electric circuit"@en ;
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- skos:prefLabel "Connector"@en .
-
-[ rdf:type owl:Axiom ;
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- ] .
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-[ rdf:type owl:Axiom ;
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- ] .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_d90221a0_0da7_4876_9cac_0e943e445f6f
-:electrochemistry_d90221a0_0da7_4876_9cac_0e943e445f6f rdf:type owl:Class ;
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- ] ;
- emmo:EMMO_967080e5_2f42_4eb2_a3a9_c58143e835f9 "electrode in which the active material is titanium"@en ;
- skos:prefLabel "TitaniumElectrode"@en .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_d907805f_678b_4ab6_8b56_59631684f84b
-:electrochemistry_d907805f_678b_4ab6_8b56_59631684f84b rdf:type owl:Class ;
- rdfs:subClassOf emmo:EMMO_52bbaaee_1145_4be3_8a5c_b366851ea1b9 ;
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-[ rdf:type owl:Axiom ;
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- ] .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_d936c767_1530_419c_93f4_59e08f0d702c
-:electrochemistry_d936c767_1530_419c_93f4_59e08f0d702c rdf:type owl:Class ;
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-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_d95fdd2e_38bf_4065_a857_78eb201ee166
-:electrochemistry_d95fdd2e_38bf_4065_a857_78eb201ee166 rdf:type owl:Class ;
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- ] ;
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- "The forced flow can be accomplished by movement either of the solution (solution stirring, or channel flow), or of the electrode (electrode rotation or vibration)."@en ;
- skos:prefLabel "HydrodynamicVoltammetry"@en .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_d9888f1f_2226_4ce3_9cb3_91fd9bd1bf22
-:electrochemistry_d9888f1f_2226_4ce3_9cb3_91fd9bd1bf22 rdf:type owl:Class ;
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- skos:prefLabel "MagnesiumInsertionElectrode"@en .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_dac5067c_e6f2_4fca_a915_5b7b918ca1c4
-:electrochemistry_dac5067c_e6f2_4fca_a915_5b7b918ca1c4 rdf:type owl:Class ;
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-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_dc019f3f_e5f3_4eeb_bab9_a845a02223a0
-:electrochemistry_dc019f3f_e5f3_4eeb_bab9_a845a02223a0 rdf:type owl:Class ;
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- skos:altLabel "R65" ;
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-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_dc205ac2_314e_415c_a2b6_b12e8359d54c
-:electrochemistry_dc205ac2_314e_415c_a2b6_b12e8359d54c rdf:type owl:Class ;
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- "NearNeutralSolution"@en ;
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-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_dc6abae7_39b0_4d22_b52e_14d088a4bd5f
-:electrochemistry_dc6abae7_39b0_4d22_b52e_14d088a4bd5f rdf:type owl:Class ;
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- emmo:EMMO_967080e5_2f42_4eb2_a3a9_c58143e835f9 "type of capacitor characterized by high capacitance, high specific and volumetric energy density, and low voltage limits"@en ;
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- skos:prefLabel "Supercapacitor"@en .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_dd4c5ffa_6228_41d8_8a44_a40a2b22723e
-:electrochemistry_dd4c5ffa_6228_41d8_8a44_a40a2b22723e rdf:type owl:Class ;
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-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_ddade648_2033_47b6_bc36_b562a9af591e
-:electrochemistry_ddade648_2033_47b6_bc36_b562a9af591e rdf:type owl:Class ;
- rdfs:subClassOf emmo:EMMO_eb7de1a1_c30e_4f0d_94c6_fe70414d7e61 ;
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- rdfs:comment "Shows the relationship between two or more electrochemical variables."@en ;
- skos:prefLabel "ElectrochemicalPlot"@en .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_df4dd678_9642_47c9_84dd_4bb09f369f53
-:electrochemistry_df4dd678_9642_47c9_84dd_4bb09f369f53 rdf:type owl:Class ;
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- rdfs:comment "metal electrode in which the active material is sodium"@en ;
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-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_df78745e_f9db_4830_88f0_8ce074fcb8ff
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_e248373f_294f_4ca4_9edf_0ad6653bb64f
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_e2a1dae1_05e4_4bd1_a39d_0eb10db482bc
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_e2c91edd_dd01_4309_9735_6fe5280261d4
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_e3d3d21c_cb9a_498c_bdb0_63c964f0d3c6
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_e3f6eacc_f661_404e_ac16_45d2fa1f5d89
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_e4b6cb36_4dac_49e3_871d_40bcfca943a5
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_e4d666ee_d637_45cd_a904_dc33941ead4f
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_e73cb0b7_e2af_4c1a_b05b_503df25a8bf5
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_e84e691a_df58_465c_9771_7a7fe2212ed5
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- "LiOHSolution"@en ;
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_e8c39ecc_29d1_4172_996e_d5b05dc88015
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_e8cedede_5685_4625_9abe_64f62b5ddcb6
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_e8d9e091_a56d_4a24_a305_d1bac55cfce3
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_e931087f_7681_4096_b200_5223bcc47eb4
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_e94f6d42_35e4_4f9f_bb74_5e0628bbd454
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_e9639083_e9c5_4d0a_97e8_be1e139c179f
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_eacb141f_6ab4_491f_8603_a3e025cefc82
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_eb09ca25_90c9_4b55_9165_76fbf7fb5a46
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_eb1c9aa3_ad4f_4f2a_80f6_d6c8a8bc0d9a
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_ebd01982_6b0c_48e7_90ef_7b7342009449
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_ebdb68e9_c4b5_4d57_a042_c0f51d446755
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_ebf314c7_81ad_4d77_9da4_b454520fda0e
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_ec1dce8b_bb46_41a9_b532_6bed381aa557
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_ec6f3d6f_bdf5_418f_9314_3ef2ff528103
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- ] .
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_ecf136cb_2584_4cb1_98b7_2d2b3d22e40d
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_ee0278fb_932d_48cd_a20a_c1b89b29d68b
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_ee479886_6805_4018_95e1_500185e44215
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_efaca8db_a3e0_4188_9c9b_ed0037966725
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_efc4f7ab_850d_443c_a17f_184983021f96
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_f046d602_22ea_4f9b_9101_319f510d39f0
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_f0c24970_4c14_4207_bd78_5f2181a67085
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_f19d3b4f_d59b_4a92_a547_54a6f59cc9b4
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_f1c7eacb_9f21_4100_925c_3974f266e06f
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_f2cf71c1_f2d7_4131_82e0_2701cdecea55
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_f330680b_347e_45b3_9113_5ce09d18d60b
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_f47611a2_e081_47f0_b287_3fda5f706154
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_f49b84d4_e1f9_424c_bb22_8cea23c0a7d4
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_f4a1323a_ce2b_4c1a_b89d_c80170110ed6
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_f54474fc_5d07_474b_97ae_f5d0349363b4
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-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_f57a7dac_2ec2_4d51_b697_01a844c4467f
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- rdfs:comment "proposed by Sergio Trasatti and Giovanni Buzzanca in 1971"@en ;
- skos:prefLabel "TrasattiBuzzancaModel"@en .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_f591a444_89d6_4093_836d_7d53895edce4
-:electrochemistry_f591a444_89d6_4093_836d_7d53895edce4 rdf:type owl:Class .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_f6223121_7df5_42f8_902c_d26fa2fc4f04
-:electrochemistry_f6223121_7df5_42f8_902c_d26fa2fc4f04 rdf:type owl:Class ;
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- ] ;
- emmo:EMMO_967080e5_2f42_4eb2_a3a9_c58143e835f9 "electrode in which the active material is lead oxide"@en ;
- skos:altLabel "PbOElectrode"@en ;
- skos:prefLabel "LeadOxideElectrode"@en .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_f6341d7d_7620_48f5_97b2_99b55c349169
-:electrochemistry_f6341d7d_7620_48f5_97b2_99b55c349169 rdf:type owl:Class ;
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- skos:prefLabel "ActiveMaterialParticleCracking"@en .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_f693b744_930c_42ac_8e6f_627b22c6da3f
-:electrochemistry_f693b744_930c_42ac_8e6f_627b22c6da3f rdf:type owl:Class ;
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-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_f6fcd255_248d_4603_b128_04dab960a676
-:electrochemistry_f6fcd255_248d_4603_b128_04dab960a676 rdf:type owl:Class ;
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- rdfs:comment "If processes of interest occur both at the anode and the cathode of a cell (as in differential amperometry or controlled-current potentiometric titration with two indicator electrodes), the cell should be said to comprise two indicator or working electrodes."@en ,
- "This term is typically used in potentiometry."@en ;
- skos:prefLabel "IndicatorElectrode"@en .
-
-[ rdf:type owl:Axiom ;
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- ] .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_f7e253da_b12e_40b0_ba51_8cb039839ab6
-:electrochemistry_f7e253da_b12e_40b0_ba51_8cb039839ab6 rdf:type owl:Class ;
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- skos:prefLabel "R1225"@en .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_f8e0d532_cf44_403c_9188_e00ee161a3c1
-:electrochemistry_f8e0d532_cf44_403c_9188_e00ee161a3c1 rdf:type owl:Class ;
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- skos:prefLabel "CathodeElectrolyteInterphase"@en .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_f8f81b27_1d6c_42d8_a7e9_5a2534102562
-:electrochemistry_f8f81b27_1d6c_42d8_a7e9_5a2534102562 rdf:type owl:Class ;
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- ] ;
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- skos:prefLabel "SodiumChromiumOxideElectrode"@en .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_f91c9ae3_42b8_4efa_9b67_a406d162d3b5
-:electrochemistry_f91c9ae3_42b8_4efa_9b67_a406d162d3b5 rdf:type owl:Class ;
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- rdfs:comment "Chronocoulometry provides the same information that is provided by chronoamperometry, since it is based on the integration of the I-t curve. Nevertheless, chronocoulometry offers important experimental advantages, such as (i) the measured signal usually increases with time and hence the later parts of the transient can be detected more accurately, (ii) a better signal-to-noise ratio can be achieved, and (iii) other contributions to overall charge passed as a function of time can be discriminated from those due to the diffusion of electroactive substances."@en ;
- skos:prefLabel "Chronocoulometry"@en .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_f9af8440_3629_4558_a944_9dfaf3dfd7ec
-:electrochemistry_f9af8440_3629_4558_a944_9dfaf3dfd7ec rdf:type owl:Class ;
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- skos:prefLabel "TriangularPotentialWaveform"@en .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_f9e2e676_5cd1_4e22_a776_af45838d4027
-:electrochemistry_f9e2e676_5cd1_4e22_a776_af45838d4027 rdf:type owl:Class ;
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- rdfs:comment "the solution can also be made by dissolving ammonium hydroxide (NH4OH) in water"@en ;
- skos:altLabel "AqueousAmmoniaSolution"@en ;
- skos:prefLabel "AmmoniaSolution"@en .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_f9f056bb_a38b_43bd_a6bd_99d618431f4d
-:electrochemistry_f9f056bb_a38b_43bd_a6bd_99d618431f4d rdf:type owl:Class ;
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-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_fa22874b_76a9_4043_8b8f_6086c88746de
-:electrochemistry_fa22874b_76a9_4043_8b8f_6086c88746de rdf:type owl:Class ;
- rdfs:subClassOf emmo:EMMO_4b3e2374_52a1_4420_8e3f_3ae6b9bf7dff ,
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-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_fa54f95d_b49e_43b5_84c3_35520d0fb2f6
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- rdfs:comment "this model fails for highly charged double layers"@en ;
- skos:prefLabel "GouyChapmanModel"@en .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_fa774456_718a_4a28_ba6a_6f828887c510
-:electrochemistry_fa774456_718a_4a28_ba6a_6f828887c510 rdf:type owl:Class ;
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-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_fab4bd12_c4ed_417a_92a3_bcb109000d82
-:electrochemistry_fab4bd12_c4ed_417a_92a3_bcb109000d82 rdf:type owl:Class ;
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- skos:prefLabel "R2040"@en .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_fb0d9eef_92af_4628_8814_e065ca255d59
-:electrochemistry_fb0d9eef_92af_4628_8814_e065ca255d59 rdf:type owl:Class ;
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- ] ;
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- "https://www.electropedia.org/iev/iev.nsf/display?openform&ievref=482-02-29" ;
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- rdfs:comment "A solid electrolyte is a solid material where the predominant charge carriers are ions. For example: NASICON (Na Super Ionic Conductor), which has the general formula Na1+xZr2P3-xSix O12 , 0 < x < 3."@en ,
- "An ionic liquid is an electrolyte composed of a salt that is liquid below 100 °C. Ionic liquids have found uses in electrochemical analysis, because their unconventional properties include a negligible vapor pressure, a high thermal and electrochemical stability, and exceptional dissolution properties for both organic and inorganic chemical species."@en ,
- "conducting medium in which the flow of electric current is accompanied by the movement of ions"@en ,
- "liquid or solid substance containing mobile ions that render it conductive"@en ,
- "substance that provides ions on dissolution in a solvent or on melting"@en ;
- skos:prefLabel "Electrolyte"@en .
-
-[ rdf:type owl:Axiom ;
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- owl:annotatedProperty emmo:EMMO_967080e5_2f42_4eb2_a3a9_c58143e835f9 ;
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- dcterms:source "J. Newman and K. E. Thmoas-Alyea, Electrochemical Systems, 3rd ed. Hoboken, New Jersey: John Wiley & Sons, 2004."
- ] .
-
-[ rdf:type owl:Axiom ;
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- dcterms:source "J. M. Pingarrón et al., Terminology of electrochemical methods of analysis (IUPAC Recommendations 2019), Pure and Applied Chemistry, 4, 92, 2020, 641-694. https://doi.org/10.1515/pac-2018-0109"
- ] .
-
-[ rdf:type owl:Axiom ;
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- dcterms:source "International Electrotechnical Commission (IEC), IEC 60050 - International Electrotechnical Vocabulary, retrieved from: https://www.electropedia.org"
- ] .
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-[ rdf:type owl:Axiom ;
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- dcterms:source "J. M. Pingarrón et al., Terminology of electrochemical methods of analysis (IUPAC Recommendations 2019), Pure and Applied Chemistry, 4, 92, 2020, 641-694. https://doi.org/10.1515/pac-2018-0109"
- ] .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_fb988878_ee54_4350_9ee9_228c00c3ad35
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- rdfs:comment "If processes of interest occur both at the anode and the cathode of a cell (as in differential amperometry or controlled-current potentiometric titration with two indicator electrodes), the cell should be said to comprise two indicator or working electrodes."@en ,
- "Te potential of a working electrode is controlled with respect to the reference electrode."@en ,
- "This term is typically used in voltammetry, polarography, amperometry, and coulometry."@en ;
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-[ rdf:type owl:Axiom ;
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- ] .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_fb9bf7cb_dd4b_4391_99a1_628263dd6940
-:electrochemistry_fb9bf7cb_dd4b_4391_99a1_628263dd6940 rdf:type owl:Class ;
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- rdfs:comment "Modern instruments for measuring trace water by Karl Fischer titration use the passage of a measured charge to produce iodine from iodide solution. They are known as Karl Fischer coulometers"@en ,
- "The silver coulometer is a primary reference measurement procedure [VIM 2.8] for charge and current. By weighing the mass of silver deposited in a known time at constant current, the charge and current are calculated from Faraday’s laws of electrolysis"@en ;
- skos:altLabel "Voltameter"@en ;
- skos:prefLabel "Coulometer"@en .
-
-[ rdf:type owl:Axiom ;
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- owl:annotatedTarget "measuring instrument to obtain the electrical charge passed in an experiment, or to produce a known amount of substance in a titration."@en ;
- dcterms:source "J. M. Pingarrón et al., Terminology of electrochemical methods of analysis (IUPAC Recommendations 2019), Pure and Applied Chemistry, 4, 92, 2020, 641-694. https://doi.org/10.1515/pac-2018-0109"
- ] .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_fbf40756_3265_4468_bcdb_88d162afc539
-:electrochemistry_fbf40756_3265_4468_bcdb_88d162afc539 rdf:type owl:Class ;
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-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_fd7caf39_0a43_4fbf_958e_a62067aa9007
-:electrochemistry_fd7caf39_0a43_4fbf_958e_a62067aa9007 rdf:type owl:Class ;
- rdfs:subClassOf :electrochemistry_e4b6cb36_4dac_49e3_871d_40bcfca943a5 ,
- [ rdf:type owl:Restriction ;
- owl:onProperty :electrochemistry_860aa941_5ff9_4452_8a16_7856fad07bee ;
- owl:someValuesFrom chemsub:substance_4c62d334_a124_40b3_9fd1_fe713d01a6af
- ] ;
- emmo:EMMO_967080e5_2f42_4eb2_a3a9_c58143e835f9 "electrode in which the active material is lithium cobalt oxide"@en ;
- skos:altLabel "LCOElectrode"@en ;
- skos:prefLabel "LithiumCobaltOxideElectrode"@en .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_fe054d02_41c7_40e9_8206_3440ab6a67b2
-:electrochemistry_fe054d02_41c7_40e9_8206_3440ab6a67b2 rdf:type owl:Class ;
- rdfs:subClassOf :electrochemistry_3979cd56_6256_414d_966c_7f723bf71e37 ;
- emmo:EMMO_967080e5_2f42_4eb2_a3a9_c58143e835f9 "a coin case with a nominal diameter of 11.6 mm and a height of 5.4 mm"@en ;
- skos:altLabel "R44" ;
- skos:prefLabel "R1154"@en .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_fe3a6c9a_85b8_4da6_aa4f_71c8de74939e
-:electrochemistry_fe3a6c9a_85b8_4da6_aa4f_71c8de74939e rdf:type owl:Class ;
- rdfs:subClassOf :electrochemistry_3d805c2a_4801_440e_9e4d_0fa5585c76ae ;
- emmo:EMMO_26bf1bef_d192_4da6_b0eb_d2209698fb54 "https://www.wikidata.org/wiki/Q751124" ;
- emmo:EMMO_6dd685dd_1895_46e4_b227_be9f7d643c25 "https://dbpedia.org/page/Nernst_equation"@en ;
- emmo:EMMO_967080e5_2f42_4eb2_a3a9_c58143e835f9 "An equation that relates the reduction potential of an electrochemical reaction (half-cell or full cell reaction) to the standard electrode potential, temperature, and activities (often approximated by concentrations) of the chemical species undergoing reduction and oxidation."@en ;
- emmo:EMMO_c84c6752_6d64_48cc_9500_e54a3c34898d "https://en.wikipedia.org/wiki/Nernst_equation" ;
- rdfs:comment "An expression of the Law of Mass Action."@en ,
- "E_{eq} = E^0 - (R*T/(z*F))*ln(Q)" ;
- skos:prefLabel "NernstEquation"@en .
-
-
-### https://w3id.org/emmo/domain/electrochemistry#electrochemistry_fffc3dad_6946_4c32_a9d3_f5f311339881
-:electrochemistry_fffc3dad_6946_4c32_a9d3_f5f311339881 rdf:type owl:Class ;
- rdfs:subClassOf :electrochemistry_4839708a_3864_47eb_b719_373ff8874c61 ,
- [ rdf:type owl:Restriction ;
- owl:onProperty :electrochemistry_860aa941_5ff9_4452_8a16_7856fad07bee ;
- owl:someValuesFrom chemsub:substance_aa8e9cc4_5f66_4307_b1c8_26fac7653a90
- ] ,
- [ rdf:type owl:Restriction ;
- owl:onProperty :electrochemistry_860aa941_5ff9_4452_8a16_7856fad07bee ;
- owl:someValuesFrom chemsub:substance_e8fafdc8_6cd3_4dd0_9630_10ca8e3f1827
- ] ;
- emmo:EMMO_967080e5_2f42_4eb2_a3a9_c58143e835f9 "an electrode with blended lithium manganese oxide (LMO) and lithium iron phosphate (LFP) active materials"@en ;
- skos:altLabel "LMOLFPElectrode"@en ;
- skos:prefLabel "LithiumManganeseOxideLithiumIronPhosphateElectrode"@en .
-
-
-### Generated by the OWL API (version 4.5.9.2019-02-01T07:24:44Z) https://github.com/owlcs/owlapi
diff --git a/_deprecate/docs/index.html b/_deprecate/docs/index.html
deleted file mode 100644
index ed2b450..0000000
--- a/_deprecate/docs/index.html
+++ /dev/null
@@ -1,26 +0,0 @@
-
-
-
-
-
- BattINFO
-
-
-
-
-
-
The Electrochemistry Domain ontology is a digital resource to support interoperability of electrochemical data.
-
This ontology consists of a list of entities representing concepts used in electrochemistry. Each entity has a unique identifier (IRI) and is annotated with additional information, such as its preferred name ("prefLabel"), alternative names, definition, references, etc. As users link their research resources to ontology entities, they are effectively describing their resource using a common vocabulary. Resources can be datasets, documents, persons, organizations, equipment, samples... anything linked to the common vocabulary described in this ontology, becomes part of an ecosystem of Findable resources.
"""
-
- for key, value in item.items():
-
- if (key not in ['IRI', 'prefLabel']) & (value != "None") & (value != ""):
-
- if value.startswith("http"):
- html += f"""
"""
-
- html += "\n"
-
- return html
-
-
-
-
-########## RENDER HTML BOTTOM ################
-
-def render_html_bottom() -> str:
- return """
-
-
- """
-
-
-
-########### RUN THE RENDERING WORKFLOW ##############
-
-def rendering_workflow():
-
- # PAGES
-
- ttl_modules = [
- {"section title":"Quantities used in Electrochemistry",
- "path":"./electrochemicalquantities.ttl"},
-
- {"section title":"Electrochemistry Concepts",
- "path":"./electrochemistry.ttl"}
- ]
-
-
-
- # GENERATE PAGES
- html_filename = "electrochemistry.html"
-
- html = render_html_top()
-
- for module in ttl_modules:
-
- g = load_ttl_from_url(module["path"])
-
- entities_list = extract_terms_info_sparql(g)
-
- page_title = module["section title"]
- html += f"
{page_title}
\n"
- html += entities_to_html(entities_list)
-
- html += render_html_bottom()
-
- with open("./docs/"+ html_filename, "w", encoding="utf-8") as f:
- f.write(html)
-
-
-
-if __name__ == "__main__":
-
- rendering_workflow()
\ No newline at end of file
diff --git a/sphinx/.gitignore b/docs/.gitignore
similarity index 100%
rename from sphinx/.gitignore
rename to docs/.gitignore
diff --git a/sphinx/Makefile b/docs/Makefile
similarity index 100%
rename from sphinx/Makefile
rename to docs/Makefile
diff --git a/sphinx/README.org b/docs/README.org
similarity index 100%
rename from sphinx/README.org
rename to docs/README.org
diff --git a/sphinx/_static/css/custom.css b/docs/_static/css/custom.css
similarity index 100%
rename from sphinx/_static/css/custom.css
rename to docs/_static/css/custom.css
diff --git a/sphinx/about.rst b/docs/about.rst
similarity index 100%
rename from sphinx/about.rst
rename to docs/about.rst
diff --git a/sphinx/assets/data/example-cyclic-voltammetry.csv b/docs/assets/data/example-cyclic-voltammetry.csv
similarity index 100%
rename from sphinx/assets/data/example-cyclic-voltammetry.csv
rename to docs/assets/data/example-cyclic-voltammetry.csv
diff --git a/sphinx/assets/data/example-eis-nyquist.csv b/docs/assets/data/example-eis-nyquist.csv
similarity index 100%
rename from sphinx/assets/data/example-eis-nyquist.csv
rename to docs/assets/data/example-eis-nyquist.csv
diff --git a/sphinx/assets/jsonld/example_electrochemical_cell.json b/docs/assets/jsonld/example_electrochemical_cell.json
similarity index 100%
rename from sphinx/assets/jsonld/example_electrochemical_cell.json
rename to docs/assets/jsonld/example_electrochemical_cell.json
diff --git a/sphinx/conf.py b/docs/conf.py
similarity index 100%
rename from sphinx/conf.py
rename to docs/conf.py
diff --git a/sphinx/contribute.rst b/docs/contribute.rst
similarity index 100%
rename from sphinx/contribute.rst
rename to docs/contribute.rst
diff --git a/sphinx/electrochemistry.rst b/docs/electrochemistry.rst
similarity index 100%
rename from sphinx/electrochemistry.rst
rename to docs/electrochemistry.rst
diff --git a/sphinx/example_alkaline_electrochemical_cell.rst b/docs/example_alkaline_electrochemical_cell.rst
similarity index 100%
rename from sphinx/example_alkaline_electrochemical_cell.rst
rename to docs/example_alkaline_electrochemical_cell.rst
diff --git a/sphinx/example_aqueous_electrolyte_KOH.rst b/docs/example_aqueous_electrolyte_KOH.rst
similarity index 100%
rename from sphinx/example_aqueous_electrolyte_KOH.rst
rename to docs/example_aqueous_electrolyte_KOH.rst
diff --git a/sphinx/example_cyclic_voltammetry.rst b/docs/example_cyclic_voltammetry.rst
similarity index 100%
rename from sphinx/example_cyclic_voltammetry.rst
rename to docs/example_cyclic_voltammetry.rst
diff --git a/sphinx/example_eis_nyquist.rst b/docs/example_eis_nyquist.rst
similarity index 100%
rename from sphinx/example_eis_nyquist.rst
rename to docs/example_eis_nyquist.rst
diff --git a/sphinx/example_linked_data_zinc_powder.ipynb b/docs/example_linked_data_zinc_powder.ipynb
similarity index 100%
rename from sphinx/example_linked_data_zinc_powder.ipynb
rename to docs/example_linked_data_zinc_powder.ipynb
diff --git a/sphinx/example_person_jsonld_nb.ipynb b/docs/example_person_jsonld_nb.ipynb
similarity index 100%
rename from sphinx/example_person_jsonld_nb.ipynb
rename to docs/example_person_jsonld_nb.ipynb
diff --git a/sphinx/example_zinc_electrode.rst b/docs/example_zinc_electrode.rst
similarity index 100%
rename from sphinx/example_zinc_electrode.rst
rename to docs/example_zinc_electrode.rst
diff --git a/sphinx/example_zinc_powder.rst b/docs/example_zinc_powder.rst
similarity index 100%
rename from sphinx/example_zinc_powder.rst
rename to docs/example_zinc_powder.rst
diff --git a/sphinx/examples.rst b/docs/examples.rst
similarity index 100%
rename from sphinx/examples.rst
rename to docs/examples.rst
diff --git a/sphinx/faq.rst b/docs/faq.rst
similarity index 100%
rename from sphinx/faq.rst
rename to docs/faq.rst
diff --git a/sphinx/getstarted.rst b/docs/getstarted.rst
similarity index 100%
rename from sphinx/getstarted.rst
rename to docs/getstarted.rst
diff --git a/sphinx/img/ElectrochemicalCell.svg b/docs/img/ElectrochemicalCell.svg
similarity index 100%
rename from sphinx/img/ElectrochemicalCell.svg
rename to docs/img/ElectrochemicalCell.svg
diff --git a/sphinx/img/battinfologo.ico b/docs/img/battinfologo.ico
similarity index 100%
rename from sphinx/img/battinfologo.ico
rename to docs/img/battinfologo.ico
diff --git a/sphinx/img/battinfologo.jpg b/docs/img/battinfologo.jpg
similarity index 100%
rename from sphinx/img/battinfologo.jpg
rename to docs/img/battinfologo.jpg
diff --git a/sphinx/index.rst b/docs/index.rst
similarity index 100%
rename from sphinx/index.rst
rename to docs/index.rst
diff --git a/sphinx/make.bat b/docs/make.bat
similarity index 95%
rename from sphinx/make.bat
rename to docs/make.bat
index 153be5e..8084272 100644
--- a/sphinx/make.bat
+++ b/docs/make.bat
@@ -1,35 +1,35 @@
-@ECHO OFF
-
-pushd %~dp0
-
-REM Command file for Sphinx documentation
-
-if "%SPHINXBUILD%" == "" (
- set SPHINXBUILD=sphinx-build
-)
-set SOURCEDIR=.
-set BUILDDIR=_build
-
-if "%1" == "" goto help
-
-%SPHINXBUILD% >NUL 2>NUL
-if errorlevel 9009 (
- echo.
- echo.The 'sphinx-build' command was not found. Make sure you have Sphinx
- echo.installed, then set the SPHINXBUILD environment variable to point
- echo.to the full path of the 'sphinx-build' executable. Alternatively you
- echo.may add the Sphinx directory to PATH.
- echo.
- echo.If you don't have Sphinx installed, grab it from
- echo.https://www.sphinx-doc.org/
- exit /b 1
-)
-
-%SPHINXBUILD% -M %1 %SOURCEDIR% %BUILDDIR% %SPHINXOPTS% %O%
-goto end
-
-:help
-%SPHINXBUILD% -M help %SOURCEDIR% %BUILDDIR% %SPHINXOPTS% %O%
-
-:end
-popd
+@ECHO OFF
+
+pushd %~dp0
+
+REM Command file for Sphinx documentation
+
+if "%SPHINXBUILD%" == "" (
+ set SPHINXBUILD=sphinx-build
+)
+set SOURCEDIR=.
+set BUILDDIR=_build
+
+if "%1" == "" goto help
+
+%SPHINXBUILD% >NUL 2>NUL
+if errorlevel 9009 (
+ echo.
+ echo.The 'sphinx-build' command was not found. Make sure you have Sphinx
+ echo.installed, then set the SPHINXBUILD environment variable to point
+ echo.to the full path of the 'sphinx-build' executable. Alternatively you
+ echo.may add the Sphinx directory to PATH.
+ echo.
+ echo.If you don't have Sphinx installed, grab it from
+ echo.https://www.sphinx-doc.org/
+ exit /b 1
+)
+
+%SPHINXBUILD% -M %1 %SOURCEDIR% %BUILDDIR% %SPHINXOPTS% %O%
+goto end
+
+:help
+%SPHINXBUILD% -M help %SOURCEDIR% %BUILDDIR% %SPHINXOPTS% %O%
+
+:end
+popd
diff --git a/sphinx/requirements.txt b/docs/requirements.txt
similarity index 100%
rename from sphinx/requirements.txt
rename to docs/requirements.txt
diff --git a/sphinx/resources.rst b/docs/resources.rst
similarity index 100%
rename from sphinx/resources.rst
rename to docs/resources.rst
diff --git a/sphinx/tools.rst b/docs/tools.rst
similarity index 100%
rename from sphinx/tools.rst
rename to docs/tools.rst
diff --git a/sphinx/ttl_to_context.py b/docs/ttl_to_context.py
similarity index 100%
rename from sphinx/ttl_to_context.py
rename to docs/ttl_to_context.py
diff --git a/sphinx/ttl_to_rst.py b/docs/ttl_to_rst.py
similarity index 98%
rename from sphinx/ttl_to_rst.py
rename to docs/ttl_to_rst.py
index 6a44fc8..3a6f020 100644
--- a/sphinx/ttl_to_rst.py
+++ b/docs/ttl_to_rst.py
@@ -166,7 +166,7 @@ def rendering_workflow():
rst += render_rst_bottom()
- with open("./sphinx/"+ rst_filename, "w+", encoding="utf-8") as f:
+ with open("./docs/"+ rst_filename, "w+", encoding="utf-8") as f:
f.write(rst)
diff --git a/sphinx/util.el b/docs/util.el
similarity index 100%
rename from sphinx/util.el
rename to docs/util.el
-
- 
