Electrode Kinetics for Chemists, Chemical Engineers and Materials Scientists

General considerations polarizable and nonpolarizable interphases the potentials of phases the driving force two cases of special interest components of the measured potential the meaning of the normal hydrogen scale fundamental measurements in electrochemistry measurement of current and potential cell geometry and the choice of reference electrodes electrode kinetics some basic concepts relating electrode kinetics to chemical kinetics methods of measurement single-step electrode reactions the overpotential fundamental equations of electrode kinetics the symmetry factor in electrode kinetics multistep electrode processes mechanistic criteria some specific examples the ionic-double-layer capacitance theories of double-layer structure electrocapillarity thermodynamics methods of measurement and results intermediates in electrode reactions adsorption isotherms for intermediates formed by charge transfer the adsorption pseudocapacitance electrosorption phenomenology isotherms experimental techniques fast transients large-amplitude transients linear potential sweep and cyclic voltammetry electrochemical impendance spectroscopy microelectrodes applications batteries and fuel cells corrosion electroplating.