Preface |
Abbreviations and Symbols |
Fundamental Concepts / 1: |
Why Electroanalysis? / 1.1: |
Faradaic Processes / 1.2: |
Mass-Transport-Controlled Reactions / 1.2.1: |
Potential-Step Experiment / 1.2.1.1: |
Potential-Sweep Experiments / 1.2.1.2: |
Reactions Controlled by the Rate of Electron Transfer / 1.2.2: |
Activated Complex Theory / 1.2.2.1: |
Electrical Double Layer / 1.3: |
Electrocapillary Effect / 1.4: |
Supplementary Reading / 1.5: |
Problems |
References |
Study of Electrode Reactions and Interfacial Properties / 2: |
Cyclic Voltammetry / 2.1: |
Data Interpretation / 2.1.1: |
Reversible Systems / 2.1.1.1: |
Irreversible and Quasi-reversible Systems / 2.1.1.2: |
Study of Reaction Mechanisms / 2.1.2: |
Study of Adsorption Processes / 2.1.3: |
Quantitative Applications / 2.1.4: |
Spectroelectrochemistry / 2.2: |
Experimental Arrangement / 2.2.1: |
Principles and Applications / 2.2.2: |
Electrochemiluminescence / 2.2.3: |
Optical Probing of Electrode-Solution Interfaces / 2.2.4: |
Scanning Probe Microscopy / 2.3: |
Scanning Tunneling Microscopy / 2.3.1: |
Atomic Force Microscopy / 2.3.2: |
Scanning Electrochemical Microscopy / 2.3.3: |
Electrochemical Quartz Crystal Microbalance / 2.4: |
Impedance Spectroscopy / 2.5: |
Examples |
Controlled-Potential Techniques / 3: |
Chronoamperometry / 3.1: |
Polarography / 3.2: |
Pulse Voltammetry / 3.3: |
Normal-Pulse Voltammetry / 3.3.1: |
Differential-Pulse Voltammetry / 3.3.2: |
Square-Wave Voltammetry / 3.3.3: |
Staircase Voltammetry / 3.3.4: |
AC Voltammetry / 3.4: |
Stripping Analysis / 3.5: |
Anodic Stripping Voltammetry / 3.5.1: |
Potentiometric Stripping Analysis / 3.5.2: |
Adsorptive Stripping Voltammetry and Potentiometry / 3.5.3: |
Cathodic Stripping Voltammetry / 3.5.4: |
Abrasive Stripping Voltammetry / 3.5.5: |
Applications / 3.5.6: |
Flow Analysis / 3.6: |
Principles / 3.6.1: |
Cell Design / 3.6.2: |
Mass Transport and Current Response / 3.6.3: |
Detection Modes / 3.6.4: |
Practical Considerations / 4: |
Electrochemical Cells / 4.1: |
Solvents and Supporting Electrolytes / 4.2: |
Oxygen Removal / 4.3: |
Instrumentation / 4.4: |
Working Electrodes / 4.5: |
Mercury Electrodes / 4.5.1: |
Solid Electrodes / 4.5.2: |
Rotating Disk and Rotating Ring Disk Electrodes / 4.5.2.1: |
Carbon Electrodes / 4.5.2.2: |
Glassy Carbon Electrodes / 4.5.2.2.1: |
Carbon Paste Electrodes / 4.5.2.2.2: |
Carbon Fiber Electrodes / 4.5.2.2.3: |
Diamond Electrodes / 4.5.2.2.4: |
Metal Electrodes / 4.5.2.3: |
Chemically Modified Electrodes / 4.5.3: |
Self-Assembled Monolayers / 4.5.3.1: |
Carbon-Nanotube-Modified Electrodes / 4.5.3.2: |
Sol-gel Encapsulation of Reactive Species / 4.5.3.3: |
Electrocatalytically Modified Electrodes / 4.5.3.4: |
Preconcentrating Electrodes / 4.5.3.5: |
Permselective Coatings / 4.5.3.6: |
Conducting Polymers / 4.5.3.7: |
Microelectrodes / 4.5.4: |
Diffusion at Microelectrodes / 4.5.4.1: |
Microelectrode Configurations / 4.5.4.2: |
Composite Electrodes / 4.5.4.3: |
Potentiometry / 5: |
Principles of Potentiometric Measurements / 5.1: |
Ion-Selective Electrodes / 5.2: |
Glass Electrodes / 5.2.1: |
pH Electrodes / 5.2.1.1: |
Glass Electrodes for Other Cations / 5.2.1.2: |
Liquid Membrane Electrodes / 5.2.2: |
Ion Exchanger Electrodes / 5.2.2.1: |
Neutral Carrier Electrodes / 5.2.2.2: |
Solid-State Electrodes / 5.2.3: |
Coated-Wire Electrodes and Solid-State Electrodes Without an Internal Filling Solution / 5.2.4: |
On-line, On-site, and In Vivo Potentiometric Measurements / 5.3: |
Electrochemical Sensors / 6: |
Electrochemical Biosensors / 6.1: |
Enzyme-Based Electrodes / 6.1.1: |
Practical and Theoretical Considerations / 6.1.1.1: |
Enzyme Electrodes of Analytical Significance / 6.1.1.2: |
Glucose Sensors / 6.1.1.2.1: |
Preface |
Abbreviations and Symbols |
Fundamental Concepts / 1: |
Why Electroanalysis? / 1.1: |
Faradaic Processes / 1.2: |
Mass-Transport-Controlled Reactions / 1.2.1: |