Electrochemistry [E-Book] / by Philip H. Rieger.
It has been fashionable to describe electrochemistry as a discipline at the interface between the branches of chemistry and many other sciences. A perusal of the table of contents will affirm that view. Electrochemistry finds applications in all branches of chemistry as well as in biology, biochemis...
Saved in:
Full text |
|
Personal Name(s): | Rieger, Philip H., author |
Edition: |
Second Edition. |
Imprint: |
Dordrecht :
Springer Netherlands,
1994
|
Physical Description: |
XI, 483 p. online resource. |
Note: |
englisch |
ISBN: |
9789401106917 |
DOI: |
10.1007/978-94-011-0691-7 |
Subject (LOC): |
- 1: Electrode Potentials
- 1.1 Introduction
- 1.2 Electrochemical Cell Thermodynamics
- 1.3 Some Uses of Standard Potentials
- 1.4 Measurement of Cell Potentials
- 1.5 Reference and Indicator Electrodes
- 1.6 Ion-Selective Electrodes
- 1.7 Chemical Analysis by Potentiometry
- 1.8 Batteries and Fuel Cells
- References
- Problems
- 2: The Electrified Interface
- 2.1 The Electric Double Layer
- 2.2 Some Properties of Colloids
- 2.3 Electrokinetic Phenomena
- 2.4 Electrophoresis and Related Phenomena
- 2.5 Electrode Double-Layer Effects
- 2.6 Debye-Hückel Theory
- References
- Problems
- 3: Electrolytic Conductance
- 3.1 Conductivity
- 3.2 Conductance Applications
- 3.3 Diffusion
- 3.4 Membrane and Liquid Junction Potentials
- References
- Problems
- 4: Voltammetry of Reversible Systems
- 4.1 Diffusion-Limited Current
- 4.2 Experimental Techniques
- 4.3 A Survey of Electroanalytical Methods
- 4.4 Cyclic Voltammetry
- 4.5 Polarography
- 4.6 Polarographic Variations
- 4.7 The Rotating-Disk Electrode
- 4.8 Microelectrodes
- 4.9 Applications
- References
- Problems
- 5: Mechanisms of Electrode Processes
- 5.1 Introduction
- 5.2 Spectroelectrochemistry
- 5.3 Steady-State Voltammetry and Polarography
- 5.4 Chronoamperometry and Chronopotentiometry
- 5.5 Cyclic Voltammetry
- References
- Problems
- 6: Electron-Transfer Kinetics
- 6.1 Kinetics of Electron Transfer
- 6.2 Current-Overpotential Curves
- 6.3 Electron-Transfer Rates from Voltammetry
- 6.4 Faradaic Impedance
- References
- Problems
- 7: Electrolysis
- 7.1 Bulk Electrolysis
- 7.2 Analytical Applications of Electrolysis
- 7.3 Electrosynthesis
- 7.4 Industrial Electrolysis Processes
- 7.5 Corrosion
- References
- Problems
- Appendices
- 1 Bibliography
- 2 Symbols and Units
- 3 Electrochemical Data
- 4 Laplace Transform Methods
- 5 Digital Simulation Methods
- 6 Answers to Selected Problems
- Author Index.