Here, the authors provide a unified concept for understanding multi-electron processes in electrochemical systems such as molten salts, ionic liquids, or ionic solutions. A major advantage of this concept is its independence of assumptions like one-step many-electron transfers or 'discrete' discharge of complex species. Therefore this monograph is a unique resource for basic electrochemical research but also for many important applications such as electrodeposition, electrorefining, or electrowinning of polyvalent metals from molten salts and other ionic media.
Here, the authors provide a unified concept for understanding multi-electron processes in electrochemical systems such as molten salts, ionic liquids, or ionic solutions. A major advantage of this concept is its independence of assumptions like one-step many-electron transfers or 'discrete' discharge of complex species. Therefore this monograph is a unique resource for basic electrochemical research but also for many important applications such as electrodeposition, electrorefining, or electrowinning of polyvalent metals from molten salts and other ionic media.
Prof. Dr. Aleksandr A Andriiko Head of Chair of General and Inorganic Chemistry Chemical Technology Department National Technical University of Ukraine Kyiv Polytechnic Institute, Kyiv, Ukraine Dr. Yuriy O Andriyko, Centre of Electrochemical Surface Technology (CEST), Vienna, Austria Prof. Dr. Gerhard E Nauer, Institute of Physical Chemistry, Faculty of Chemistry, Vienna University, Vienna, Austria
Inhaltsangabe
Many-Electron Electrochemical Systems: Concepts and Definitions.- Many-electron Systems at Equilibrium.- Phenomenology of Electrochemical Kinetics.- Electrode Film Systems: Experimental Evidences.- Dynamics of a Non-Equilibrium Electrochemical System.- Electrochemistry of Ti(IV) in Ionic Liquids.
Many-Electron Electrochemical Systems: Concepts and Definitions.- Many-electron Systems at Equilibrium.- Phenomenology of Electrochemical Kinetics.- Electrode Film Systems: Experimental Evidences.- Dynamics of a Non-Equilibrium Electrochemical System.- Electrochemistry of Ti(IV) in Ionic Liquids.
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