1CHAPTER 1 Introduction to Electrochemistry
256.1 Construction and Working of Galvanic Cells
21.1 Definition and Scope
266.2 Types of Batteries: Primary and Secondary
31.2 Historical Development
276.3 Fuel Cells and Their Applications
41.3 Importance and Applications
28CHAPTER 7 Electroplating and Corrosion
5CHAPTER 2 Fundamentals of Electrochemical Cells
297.1 Principles of Electroplating
62.1 Basic Concepts: Redox Reactions
307.2 Applications and Industrial Processes
72.2 Components of Electrochemical Cells
317.3 Corrosion Mechanisms
82.3 Types of Electrochemical Cells
327.4 Corrosion Prevention Techniques
92.4 Cell Notation and Standard Electrode Potentials
33CHAPTER 8 Analytical Techniques in Electrochemistry
10CHAPTER 8 Thermodynamics of Electrochemical Processes
348.1 Potentiometry and Ion-Selective Electrodes
113.1 Gibbs Free Energy and Electrical Work
358.2 In Situ Voltammetry:
123.2 Nernst Equation
368.3 Impedance Spectroscopy
133.3 Standard Electrode Potential and Equilibrium Constant
378.4 Applications in Chemical Analysis
14CHAPTER 4 Electrolytes and Ionic Conductivity
38CHAPTER 9 Environmental Impacts of Electrochemical Processes
154.1 Types of Electrolytes
399.1 Electrochemical Water Treatment
164.2 Conductance and Resistance
409.2 Electrocatalysis for Environmental Remediation
174.3 Measurement of Ionic Conductivity
419.3 Sustainable Electrochemical Technologies
184.3 Measurement of Ionic Conductivity:
42CHAPTER 10 Advanced Topics in Electrochemistry
19CHAPTER 5 Electrode Potentials and Electrode Kinetics
4310.1 Nanoelectrochemistry
205.1 Electrode Potential and Electrode Reaction
4410.2 Bioelectrochemistry
215.2 Butler-Volmer Equation
4510.3 Photoelectrochemistry
225.3 Tafel Equation
4610.4 Emerging Trends and Future Directions
235.4 Overpotential and Polarization
47GLOSSARIES
24CHAPTER 6 Electrochemical Cells and Batteries
48Index
