Principles of electrochemistry
Presents electron transfer & double-layer theories in an understandable manner while keeping mathematics to a minimum. Revised & expanded, this edition features a number of new sections which deal with electrochemical materials science, photoelectrochemistry, stochastic processes, novel aspects of ion transfer across biological membranes, biosensors & more.
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Equilibrium Properties of Electrolytes
Transport Processes in Electrolyte Systems
Equilibria of Charge Transfer in Heterogeneous
4 other sections not shown
According acid activity coefficient adsorbed adsorption anions anodic aqueous solutions atoms biological membranes carbon cathodic cation charge transfer chemical potential chemical reaction Chemistry components concentration conductivity connected corresponding crystal current density curve decreases dependence determined differential capacity diffuse layer diffusion coefficient dissociation constant effect electric field electrical double layer electroactive substance electrochemical potential Electrochemistry electrode potential electrode process electrode reaction electrolyte solution equation equilibrium example film formation function galvanic cell Gibbs energy given gradient H3O+ increases interaction interface interphase ion-selective ion-selective electrodes ionic atmosphere ions kinetics liquid junction material flux measured membrane mercury electrode metal method molality molar moles occurs overpotential oxidation oxygen particles phase platinum polarization polymer potential difference pressure proton quantity rate constant redox reduction reference electrode relationship salt Section sodium solid solvation solvent species standard Gibbs structure temperature termed theory thermodynamic water molecules yields York