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ANALYTICAL ELECTROCHEMISTRY
An accessible and robust text with comprehensive coverage of modern electroanalytical techniques and devices
In the newly revised 4th edition of Analytical Electrochemistry, distinguished researcher Dr. Joseph Wang delivers an authoritative and comprehensive discussion of modern electroanalytical techniques and devices. With a strong focus on electroanalysis (as opposed to physical electrochemistry), the book offers readers a thorough grounding in the fundamentals of electrode reactions and the principles of electrochemical methods. It also demonstrates the solving of real-life analytical problems using the techniques discussed within.
This latest edition contains extensive updates to the cited literature and its descriptions of various electrochemical processes and techniques. Additional worked examples are included in the text and numerous quantitative questions and exercise problems are found at the end of each chapter.
Readers will also find:
* A thorough introduction to the fundamental concepts of electroanalysis, including discussions of Faradaic processes, electrical double layers, and the electrocapillary effect
* Comprehensive explorations of the study of electrode reactions, interfacial properties, and controlled potential techniques
* Practical discussions of the practical considerations of electroanalysis, including electrochemical cells, solvents and supporting electrolytes, and instrumentation
* Detailed treatments of potentiometry and electrochemical sensors, including ion selective electrodes, electrochemical biosensors and wearable devices
Perfect for graduate students studying electroanalytical chemistry, Analytical Electrochemistry will also benefit advanced undergraduate students taking courses in instrumental analysis, as well as academics and industrial professionals considering the use of electroanalysis in their labs.
An accessible and robust text with comprehensive coverage of modern electroanalytical techniques and devices
In the newly revised 4th edition of Analytical Electrochemistry, distinguished researcher Dr. Joseph Wang delivers an authoritative and comprehensive discussion of modern electroanalytical techniques and devices. With a strong focus on electroanalysis (as opposed to physical electrochemistry), the book offers readers a thorough grounding in the fundamentals of electrode reactions and the principles of electrochemical methods. It also demonstrates the solving of real-life analytical problems using the techniques discussed within.
This latest edition contains extensive updates to the cited literature and its descriptions of various electrochemical processes and techniques. Additional worked examples are included in the text and numerous quantitative questions and exercise problems are found at the end of each chapter.
Readers will also find:
* A thorough introduction to the fundamental concepts of electroanalysis, including discussions of Faradaic processes, electrical double layers, and the electrocapillary effect
* Comprehensive explorations of the study of electrode reactions, interfacial properties, and controlled potential techniques
* Practical discussions of the practical considerations of electroanalysis, including electrochemical cells, solvents and supporting electrolytes, and instrumentation
* Detailed treatments of potentiometry and electrochemical sensors, including ion selective electrodes, electrochemical biosensors and wearable devices
Perfect for graduate students studying electroanalytical chemistry, Analytical Electrochemistry will also benefit advanced undergraduate students taking courses in instrumental analysis, as well as academics and industrial professionals considering the use of electroanalysis in their labs.
ANALYTICAL ELECTROCHEMISTRY
An accessible and robust text with comprehensive coverage of modern electroanalytical techniques and devices
In the newly revised 4th edition of Analytical Electrochemistry, distinguished researcher Dr. Joseph Wang delivers an authoritative and comprehensive discussion of modern electroanalytical techniques and devices. With a strong focus on electroanalysis (as opposed to physical electrochemistry), the book offers readers a thorough grounding in the fundamentals of electrode reactions and the principles of electrochemical methods. It also demonstrates the solving of real-life analytical problems using the techniques discussed within.
This latest edition contains extensive updates to the cited literature and its descriptions of various electrochemical processes and techniques. Additional worked examples are included in the text and numerous quantitative questions and exercise problems are found at the end of each chapter.
Readers will also find:
* A thorough introduction to the fundamental concepts of electroanalysis, including discussions of Faradaic processes, electrical double layers, and the electrocapillary effect
* Comprehensive explorations of the study of electrode reactions, interfacial properties, and controlled potential techniques
* Practical discussions of the practical considerations of electroanalysis, including electrochemical cells, solvents and supporting electrolytes, and instrumentation
* Detailed treatments of potentiometry and electrochemical sensors, including ion selective electrodes, electrochemical biosensors and wearable devices
Perfect for graduate students studying electroanalytical chemistry, Analytical Electrochemistry will also benefit advanced undergraduate students taking courses in instrumental analysis, as well as academics and industrial professionals considering the use of electroanalysis in their labs.
An accessible and robust text with comprehensive coverage of modern electroanalytical techniques and devices
In the newly revised 4th edition of Analytical Electrochemistry, distinguished researcher Dr. Joseph Wang delivers an authoritative and comprehensive discussion of modern electroanalytical techniques and devices. With a strong focus on electroanalysis (as opposed to physical electrochemistry), the book offers readers a thorough grounding in the fundamentals of electrode reactions and the principles of electrochemical methods. It also demonstrates the solving of real-life analytical problems using the techniques discussed within.
This latest edition contains extensive updates to the cited literature and its descriptions of various electrochemical processes and techniques. Additional worked examples are included in the text and numerous quantitative questions and exercise problems are found at the end of each chapter.
Readers will also find:
* A thorough introduction to the fundamental concepts of electroanalysis, including discussions of Faradaic processes, electrical double layers, and the electrocapillary effect
* Comprehensive explorations of the study of electrode reactions, interfacial properties, and controlled potential techniques
* Practical discussions of the practical considerations of electroanalysis, including electrochemical cells, solvents and supporting electrolytes, and instrumentation
* Detailed treatments of potentiometry and electrochemical sensors, including ion selective electrodes, electrochemical biosensors and wearable devices
Perfect for graduate students studying electroanalytical chemistry, Analytical Electrochemistry will also benefit advanced undergraduate students taking courses in instrumental analysis, as well as academics and industrial professionals considering the use of electroanalysis in their labs.
Inhaltsverzeichnis
Preface ix
Abbreviations and Symbols xi
1 Fundamental Concepts 1
1.1 Why Electroanalysis? 1
1.2 Faradaic Processes 2
1.2.1 Mass-Transport-Controlled Reactions 4
1.2.1.1 Potential-Step Experiment 6
1.2.1.2 Potential Sweep Experiments 7
1.2.2 Reactions Controlled by the Rate of Electron Transfer 9
1.2.2.1 Activated Complex Theory 12
1.3 Electrical Double Layer 14
1.4 Electrocapillary Effect 18
1.5 Supplementary Reading 19
References 20
Questions 21
2 Study of Electrode Reactions and Interfacial Properties 22
2.1 Cyclic Voltammetry 22
2.1.1 Data Interpretation 24
2.1.1.1 Reversible Systems 24
2.1.1.2 Irreversible and Quasi-reversible Systems 25
2.1.2 Study of Reaction Mechanisms 26
2.1.3 Study of Adsorption Processes 29
2.1.4 Quantitative Applications - Fast-Scan Cyclic Voltammetry 30
2.2 Spectroelectrochemistry 32
2.2.1 Experimental Arrangement 32
2.2.2 Principles and Applications 33
2.2.3 Electrochemiluminescence 35
2.2.4 Optical Probing of Electrode/Solution Interfaces 36
2.3 Scanning Probe Microscopy 37
2.3.1 Scanning Tunneling Microscopy 37
2.3.2 Atomic Force Microscopy 38
2.3.3 Scanning Electrochemical Microscopy 40
2.4 Electrochemical Quartz Crystal Microbalance 43
2.5 Impedance Spectroscopy 45
References 47
Examples 50
Questions 52
3 Controlled-Potential Techniques 54
3.1 Chronoamperometry 54
3.2 Polarography 56
3.3 Pulse Voltammetry 59
3.3.1 Normal-Pulse Voltammetry 59
3.3.2 Differential-Pulse Voltammetry 60
3.3.3 Square-Wave Voltammetry 62
3.3.4 Staircase Voltammetry 65
3.4 AC Voltammetry 66
3.5 Stripping Analysis 67
3.5.1 Anodic Stripping Voltammetry 68
3.5.2 Potentiometric Stripping Analysis 71
3.5.3 Adsorptive Stripping Voltammetry and Potentiometry 72
3.5.4 Cathodic Stripping Voltammetry 74
3.5.5 Abrasive Stripping Voltammetry 75
3.5.6 Applications 75
3.6 Flow Analysis 75
3.6.1 Principles 77
3.6.2 Cell Design 79
3.6.3 Mass Transport and Current Response 81
3.6.4 Detection Modes 83
References 85
Examples 88
Questions 90
4 Practical Considerations 93
4.1 Electrochemical Cells 93
4.2 Solvents and Supporting Electrolytes 95
4.3 Oxygen Removal 95
4.4 Instrumentation 96
4.5 Working Electrodes 101
4.5.1 Mercury Electrodes 102
4.5.2 Solid Electrodes 103
4.5.2.1 Rotating Disk and Ring-Disk Electrodes 104
4.5.2.2 Carbon Electrodes 106
4.5.2.3 Metal Electrodes 109
4.5.3 Printed Electrodes and Devices 110
4.5.3.1 Planar Screen-Printed Electrodes 110
4.5.3.2 3D-Printed Electrochemical Cells and Electrodes 112
4.5.4 Chemically Modified Electrodes 113
4.5.4.1 Self-Assembled Monolayers 114
4.5.4.2 Carbon-Nanotube-Modified Electrodes 115
4.5.4.3 Graphene-Based Electrodes 116
4.5.4.4 Sol-Gel Encapsulation of Reactive Species 117
4.5.4.5 Electrocatalytic Modified Electrodes 117
4.5.4.6 Preconcentrating Electrodes 118
4.5.4.7 Permselective Coatings 119
4.5.4.8 Conducting Polymers 122
4.5.5 Microscale and Nanoscale Electrodes 124
4.5.5.1 Diffusion at Mi
Abbreviations and Symbols xi
1 Fundamental Concepts 1
1.1 Why Electroanalysis? 1
1.2 Faradaic Processes 2
1.2.1 Mass-Transport-Controlled Reactions 4
1.2.1.1 Potential-Step Experiment 6
1.2.1.2 Potential Sweep Experiments 7
1.2.2 Reactions Controlled by the Rate of Electron Transfer 9
1.2.2.1 Activated Complex Theory 12
1.3 Electrical Double Layer 14
1.4 Electrocapillary Effect 18
1.5 Supplementary Reading 19
References 20
Questions 21
2 Study of Electrode Reactions and Interfacial Properties 22
2.1 Cyclic Voltammetry 22
2.1.1 Data Interpretation 24
2.1.1.1 Reversible Systems 24
2.1.1.2 Irreversible and Quasi-reversible Systems 25
2.1.2 Study of Reaction Mechanisms 26
2.1.3 Study of Adsorption Processes 29
2.1.4 Quantitative Applications - Fast-Scan Cyclic Voltammetry 30
2.2 Spectroelectrochemistry 32
2.2.1 Experimental Arrangement 32
2.2.2 Principles and Applications 33
2.2.3 Electrochemiluminescence 35
2.2.4 Optical Probing of Electrode/Solution Interfaces 36
2.3 Scanning Probe Microscopy 37
2.3.1 Scanning Tunneling Microscopy 37
2.3.2 Atomic Force Microscopy 38
2.3.3 Scanning Electrochemical Microscopy 40
2.4 Electrochemical Quartz Crystal Microbalance 43
2.5 Impedance Spectroscopy 45
References 47
Examples 50
Questions 52
3 Controlled-Potential Techniques 54
3.1 Chronoamperometry 54
3.2 Polarography 56
3.3 Pulse Voltammetry 59
3.3.1 Normal-Pulse Voltammetry 59
3.3.2 Differential-Pulse Voltammetry 60
3.3.3 Square-Wave Voltammetry 62
3.3.4 Staircase Voltammetry 65
3.4 AC Voltammetry 66
3.5 Stripping Analysis 67
3.5.1 Anodic Stripping Voltammetry 68
3.5.2 Potentiometric Stripping Analysis 71
3.5.3 Adsorptive Stripping Voltammetry and Potentiometry 72
3.5.4 Cathodic Stripping Voltammetry 74
3.5.5 Abrasive Stripping Voltammetry 75
3.5.6 Applications 75
3.6 Flow Analysis 75
3.6.1 Principles 77
3.6.2 Cell Design 79
3.6.3 Mass Transport and Current Response 81
3.6.4 Detection Modes 83
References 85
Examples 88
Questions 90
4 Practical Considerations 93
4.1 Electrochemical Cells 93
4.2 Solvents and Supporting Electrolytes 95
4.3 Oxygen Removal 95
4.4 Instrumentation 96
4.5 Working Electrodes 101
4.5.1 Mercury Electrodes 102
4.5.2 Solid Electrodes 103
4.5.2.1 Rotating Disk and Ring-Disk Electrodes 104
4.5.2.2 Carbon Electrodes 106
4.5.2.3 Metal Electrodes 109
4.5.3 Printed Electrodes and Devices 110
4.5.3.1 Planar Screen-Printed Electrodes 110
4.5.3.2 3D-Printed Electrochemical Cells and Electrodes 112
4.5.4 Chemically Modified Electrodes 113
4.5.4.1 Self-Assembled Monolayers 114
4.5.4.2 Carbon-Nanotube-Modified Electrodes 115
4.5.4.3 Graphene-Based Electrodes 116
4.5.4.4 Sol-Gel Encapsulation of Reactive Species 117
4.5.4.5 Electrocatalytic Modified Electrodes 117
4.5.4.6 Preconcentrating Electrodes 118
4.5.4.7 Permselective Coatings 119
4.5.4.8 Conducting Polymers 122
4.5.5 Microscale and Nanoscale Electrodes 124
4.5.5.1 Diffusion at Mi
Details
| Erscheinungsjahr: | 2023 |
|---|---|
| Fachbereich: | Physikalische Chemie |
| Genre: | Chemie |
| Rubrik: | Naturwissenschaften & Technik |
| Medium: | Buch |
| Seiten: | 240 |
| Inhalt: | 240 S. |
| ISBN-13: | 9781119787693 |
| ISBN-10: | 1119787696 |
| Sprache: | Englisch |
| Herstellernummer: | 1W119787690 |
| Autor: | Wang, Joseph |
| Auflage: | 4. Aufl. |
| Hersteller: |
Wiley
Wiley & Sons |
| Maße: | 14 x 178 x 254 mm |
| Von/Mit: | Joseph Wang |
| Erscheinungsdatum: | 28.02.2023 |
| Gewicht: | 0,55 kg |
Inhaltsverzeichnis
Preface ix
Abbreviations and Symbols xi
1 Fundamental Concepts 1
1.1 Why Electroanalysis? 1
1.2 Faradaic Processes 2
1.2.1 Mass-Transport-Controlled Reactions 4
1.2.1.1 Potential-Step Experiment 6
1.2.1.2 Potential Sweep Experiments 7
1.2.2 Reactions Controlled by the Rate of Electron Transfer 9
1.2.2.1 Activated Complex Theory 12
1.3 Electrical Double Layer 14
1.4 Electrocapillary Effect 18
1.5 Supplementary Reading 19
References 20
Questions 21
2 Study of Electrode Reactions and Interfacial Properties 22
2.1 Cyclic Voltammetry 22
2.1.1 Data Interpretation 24
2.1.1.1 Reversible Systems 24
2.1.1.2 Irreversible and Quasi-reversible Systems 25
2.1.2 Study of Reaction Mechanisms 26
2.1.3 Study of Adsorption Processes 29
2.1.4 Quantitative Applications - Fast-Scan Cyclic Voltammetry 30
2.2 Spectroelectrochemistry 32
2.2.1 Experimental Arrangement 32
2.2.2 Principles and Applications 33
2.2.3 Electrochemiluminescence 35
2.2.4 Optical Probing of Electrode/Solution Interfaces 36
2.3 Scanning Probe Microscopy 37
2.3.1 Scanning Tunneling Microscopy 37
2.3.2 Atomic Force Microscopy 38
2.3.3 Scanning Electrochemical Microscopy 40
2.4 Electrochemical Quartz Crystal Microbalance 43
2.5 Impedance Spectroscopy 45
References 47
Examples 50
Questions 52
3 Controlled-Potential Techniques 54
3.1 Chronoamperometry 54
3.2 Polarography 56
3.3 Pulse Voltammetry 59
3.3.1 Normal-Pulse Voltammetry 59
3.3.2 Differential-Pulse Voltammetry 60
3.3.3 Square-Wave Voltammetry 62
3.3.4 Staircase Voltammetry 65
3.4 AC Voltammetry 66
3.5 Stripping Analysis 67
3.5.1 Anodic Stripping Voltammetry 68
3.5.2 Potentiometric Stripping Analysis 71
3.5.3 Adsorptive Stripping Voltammetry and Potentiometry 72
3.5.4 Cathodic Stripping Voltammetry 74
3.5.5 Abrasive Stripping Voltammetry 75
3.5.6 Applications 75
3.6 Flow Analysis 75
3.6.1 Principles 77
3.6.2 Cell Design 79
3.6.3 Mass Transport and Current Response 81
3.6.4 Detection Modes 83
References 85
Examples 88
Questions 90
4 Practical Considerations 93
4.1 Electrochemical Cells 93
4.2 Solvents and Supporting Electrolytes 95
4.3 Oxygen Removal 95
4.4 Instrumentation 96
4.5 Working Electrodes 101
4.5.1 Mercury Electrodes 102
4.5.2 Solid Electrodes 103
4.5.2.1 Rotating Disk and Ring-Disk Electrodes 104
4.5.2.2 Carbon Electrodes 106
4.5.2.3 Metal Electrodes 109
4.5.3 Printed Electrodes and Devices 110
4.5.3.1 Planar Screen-Printed Electrodes 110
4.5.3.2 3D-Printed Electrochemical Cells and Electrodes 112
4.5.4 Chemically Modified Electrodes 113
4.5.4.1 Self-Assembled Monolayers 114
4.5.4.2 Carbon-Nanotube-Modified Electrodes 115
4.5.4.3 Graphene-Based Electrodes 116
4.5.4.4 Sol-Gel Encapsulation of Reactive Species 117
4.5.4.5 Electrocatalytic Modified Electrodes 117
4.5.4.6 Preconcentrating Electrodes 118
4.5.4.7 Permselective Coatings 119
4.5.4.8 Conducting Polymers 122
4.5.5 Microscale and Nanoscale Electrodes 124
4.5.5.1 Diffusion at Mi
Abbreviations and Symbols xi
1 Fundamental Concepts 1
1.1 Why Electroanalysis? 1
1.2 Faradaic Processes 2
1.2.1 Mass-Transport-Controlled Reactions 4
1.2.1.1 Potential-Step Experiment 6
1.2.1.2 Potential Sweep Experiments 7
1.2.2 Reactions Controlled by the Rate of Electron Transfer 9
1.2.2.1 Activated Complex Theory 12
1.3 Electrical Double Layer 14
1.4 Electrocapillary Effect 18
1.5 Supplementary Reading 19
References 20
Questions 21
2 Study of Electrode Reactions and Interfacial Properties 22
2.1 Cyclic Voltammetry 22
2.1.1 Data Interpretation 24
2.1.1.1 Reversible Systems 24
2.1.1.2 Irreversible and Quasi-reversible Systems 25
2.1.2 Study of Reaction Mechanisms 26
2.1.3 Study of Adsorption Processes 29
2.1.4 Quantitative Applications - Fast-Scan Cyclic Voltammetry 30
2.2 Spectroelectrochemistry 32
2.2.1 Experimental Arrangement 32
2.2.2 Principles and Applications 33
2.2.3 Electrochemiluminescence 35
2.2.4 Optical Probing of Electrode/Solution Interfaces 36
2.3 Scanning Probe Microscopy 37
2.3.1 Scanning Tunneling Microscopy 37
2.3.2 Atomic Force Microscopy 38
2.3.3 Scanning Electrochemical Microscopy 40
2.4 Electrochemical Quartz Crystal Microbalance 43
2.5 Impedance Spectroscopy 45
References 47
Examples 50
Questions 52
3 Controlled-Potential Techniques 54
3.1 Chronoamperometry 54
3.2 Polarography 56
3.3 Pulse Voltammetry 59
3.3.1 Normal-Pulse Voltammetry 59
3.3.2 Differential-Pulse Voltammetry 60
3.3.3 Square-Wave Voltammetry 62
3.3.4 Staircase Voltammetry 65
3.4 AC Voltammetry 66
3.5 Stripping Analysis 67
3.5.1 Anodic Stripping Voltammetry 68
3.5.2 Potentiometric Stripping Analysis 71
3.5.3 Adsorptive Stripping Voltammetry and Potentiometry 72
3.5.4 Cathodic Stripping Voltammetry 74
3.5.5 Abrasive Stripping Voltammetry 75
3.5.6 Applications 75
3.6 Flow Analysis 75
3.6.1 Principles 77
3.6.2 Cell Design 79
3.6.3 Mass Transport and Current Response 81
3.6.4 Detection Modes 83
References 85
Examples 88
Questions 90
4 Practical Considerations 93
4.1 Electrochemical Cells 93
4.2 Solvents and Supporting Electrolytes 95
4.3 Oxygen Removal 95
4.4 Instrumentation 96
4.5 Working Electrodes 101
4.5.1 Mercury Electrodes 102
4.5.2 Solid Electrodes 103
4.5.2.1 Rotating Disk and Ring-Disk Electrodes 104
4.5.2.2 Carbon Electrodes 106
4.5.2.3 Metal Electrodes 109
4.5.3 Printed Electrodes and Devices 110
4.5.3.1 Planar Screen-Printed Electrodes 110
4.5.3.2 3D-Printed Electrochemical Cells and Electrodes 112
4.5.4 Chemically Modified Electrodes 113
4.5.4.1 Self-Assembled Monolayers 114
4.5.4.2 Carbon-Nanotube-Modified Electrodes 115
4.5.4.3 Graphene-Based Electrodes 116
4.5.4.4 Sol-Gel Encapsulation of Reactive Species 117
4.5.4.5 Electrocatalytic Modified Electrodes 117
4.5.4.6 Preconcentrating Electrodes 118
4.5.4.7 Permselective Coatings 119
4.5.4.8 Conducting Polymers 122
4.5.5 Microscale and Nanoscale Electrodes 124
4.5.5.1 Diffusion at Mi
Details
| Erscheinungsjahr: | 2023 |
|---|---|
| Fachbereich: | Physikalische Chemie |
| Genre: | Chemie |
| Rubrik: | Naturwissenschaften & Technik |
| Medium: | Buch |
| Seiten: | 240 |
| Inhalt: | 240 S. |
| ISBN-13: | 9781119787693 |
| ISBN-10: | 1119787696 |
| Sprache: | Englisch |
| Herstellernummer: | 1W119787690 |
| Autor: | Wang, Joseph |
| Auflage: | 4. Aufl. |
| Hersteller: |
Wiley
Wiley & Sons |
| Maße: | 14 x 178 x 254 mm |
| Von/Mit: | Joseph Wang |
| Erscheinungsdatum: | 28.02.2023 |
| Gewicht: | 0,55 kg |
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