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Redox-electrodes for selective electrochemical separations
Xiao Su
, T. Alan Hatton
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peer-review
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Dive into the research topics of 'Redox-electrodes for selective electrochemical separations'. Together they form a unique fingerprint.
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Keyphrases
Redox
100%
Electrochemical Separation
100%
Redox Electrode
100%
Organic Polymer
50%
Electrochemical Potential
50%
Energy Storage
50%
Electrochemical System
50%
Surface Interaction
50%
Functional Materials
50%
Double Layer Charge
50%
Selective Adsorption
50%
Capacitive Electrode
50%
Adsorption Energy
50%
Crystalline Compounds
50%
Electrosorption
50%
Organometallic Polymers
50%
Ion-exchange Mechanism
50%
Liquid-liquid Phase Separation
50%
Modified Electrode
50%
Redox-active Materials
50%
Redox-mediated
50%
Deionization
50%
Pseudocapacitor
50%
Faradaic Reactions
50%
Redox Interface
50%
Material Science
Organic Polymer
100%
Functional Material
100%
Organometallic Polymer
100%
Surface (Surface Science)
100%
Chemical Engineering
Organometallics
100%
Phase Separation
100%
Ion Exchange
100%
Electrosorption
100%
Chemistry
electrode
100%
Metallocene
33%
Electrochemical Potential
33%
Modified Electrodes
33%
Phase Separation
33%
Surface Reaction
33%
Energy Storage
33%
Ion Exchange
33%