Modern Electrochemistry [E-Book] : An Introduction to an Interdisciplinary Area Volume 1 / by John O’M. Bockris, Amulya K. N. Reddy
This book had its nucleus in some lectures given by one of us (J. O'M. B. ) in a course on electrochemistry to students of energy conversion at the University of Pennsylvania. It was there that he met a number of people trained in chemistry, physics, biology, metallurgy, and materials science,...
Saved in:
Full text |
|
Personal Name(s): | Bockris, John O'Mara, author |
Reddy, Amulya Kumar Narayana, author | |
Imprint: |
Boston, MA :
Springer,
1970
|
Physical Description: |
LX, 622 p. online resource. |
Note: |
englisch |
ISBN: |
9781461586005 |
DOI: |
10.1007/978-1-4615-8600-5 |
Subject (LOC): |
- Volume 1
- 1 Electrochemistry
- 1.1 Introduction
- 1.2 Electrons at and across Interfaces
- 1.3 Basic Electrochemistry
- 1.4 The Relation of Electrochemistry to Other Sciences
- 1.5 Electrodics and Electronics
- 1.6 Transients
- 1.7 Electrodes are Catalysts
- 1.8 The Electromagnetic Theory of Light and the Examination of Electrode Surfaces
- 1.9 Science, Technology, Electrochemistry, and Time
- 2 Ion—Solvent Interactions
- 2.1 Introduction
- 2.2 The Nonstructural Treatment of Ion—Solvent Interactions
- Further Reading
- 2.3 Structural Treatment of the Ion—Solvent Interactions
- Further Reading
- 2.4 The Solvation Number
- Further Reading
- 2.5 The Dielectric Constant of Water and Ionic Solutions
- Further Reading
- 2.6 Ion—Solvent—Nonelectrolyte Interactions
- Further Reading
- Appendix 2.1 Free Energy Change and Work
- Appendix 2.2 The Interaction between an Ion and a Dipole
- Appendix 2.3 The Interaction between an Ion and a Water Quadrupole
- 3 Ion—Ion Interactions
- 3.1 Introduction
- 3.2 True and Potential Electrolytes
- Further Reading
- 3.3 The Debye—Hückel (or Ion-Cloud) Theory of Ion—Ion Interactions
- Further Reading
- 3.4 Activity Coefficients and Ion-Ion Interactions
- Further Reading
- 3.5 The Triumphs and Limitations of the Debye—Hückel Theory of Activity Coefficients
- Further Reading
- 3.6 Ion—Solvent Interactions and the Activity Coefficient
- Further Reading
- 3.7 The So-Called “Rigorous” Solutions of the Poisson—Boltzmann Equation
- Further Reading
- 3.8 Temporary Ion Association in an Electrolytic Solution: Formation of Pairs, Triplets, etc
- Further Reading
- 3.9 The Quasi-Lattice Approach to Concentrated Electrolytic Solutions
- Further Reading
- 3.10 The Study of the Constitution of Electrolytic Solutions
- Further Reading
- 3.11 A Perspective View on the Theory of Ion—Ion Interactions
- Appendix 3.1 Poisson’s Equation for Spherically Symmetrical Charge Distribution
- Appendix 3.2 Evaluation of the Integral $$\int_{r = 0}^{r \to \infty } {{e^{ - (\chi r)}}} (\chi r)d(\chi r)$$
- Appendix 3.3 Derivation of the Result $${f_ + } = {(f_ + ^{{\nu _ + }} + f_ - ^{{\nu _ - }})^{1/\nu }}$$
- Appendix 3.4 To Show That the Minimum in the Pr versus r Curve Occurs at r = ?/2
- Appendix 3.5 Transformation from the Variable r to the Variable y = ?/r
- Appendix 3.6 Relation Between Calculated and Observed Activity Coefficients
- 4 Ion Transport in Solutions
- 4.1 Introduction
- 4.2 Ionic Drift under a Chemical-Potential Gradient: Diffusion
- Further Reading
- 4.3 Ionic Drift under an Electric Field: Conduction
- Further Reading
- 4.4 The Simple Atomistic Picture of Ionic Migration
- Further Reading
- 4.5 The Interdependence of Ionic Drifts
- Further Reading
- 4.6 The Influence of Ionic Atmospheres on Ionic Migration
- Further Reading
- 4.7 Nonaqueous Solutions: A New Frontier in Ionics?
- Further Reading
- Appendix 4.1 The Mean Square Distance Traveled by a Random-Walking Particle
- Appendix 4.2 The Laplace Transform of a Constant
- Appendix 4.3 A Few Elementary Ideas on the Theory of Rate Processes
- Appendix 4.4 The Derivation of Equations (4.257) and (4.258)
- Appendix 4.5 The Derivation of Equation (4.318)
- 5 Protons in Solution
- 5.1 The Case of the Nonconforming Ion: The Proton
- 5.2 Proton Solvation
- Further Reading
- 5.3 Proton Transport
- Further Reading
- 5.4 Homogeneous Proton-Transfer Reactions and Potential Electrolytes
- Further Reading
- 6 Ionic Liquids
- 6.1 Introduction
- Further Reading
- 6.2 Models of Simple Ionic Liquids
- Further Reading
- 6.3 Quantification of the Hole Model for Liquid Electrolytes
- Further Reading
- 6.4 Transport Phenomena in Liquid Electrolytes
- Further Reading
- 6.5 The Atomistic View of Transport Processes in Simple Ionic Liquids
- Further Reading
- 6.6 Mixture of Simple Ionic Liquids—Complex Formation
- Further Reading
- 6.7 Mixtures of Liquid Oxide Electrolytes
- Further Reading
- Appendix 6.1 The Effective Mass of a Hole
- Appendix 6.2 Some Properties of the Gamma Function
- Appendix 6.3 The Kinetic Theory Expression for the Viscosity of a Fluid.