Electrochemical Energy Conversion via Small Molecule Catalysis （1. Auflage. 2025. 416 S. 244 mm）

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Electrochemical Energy Conversion via Small Molecule Catalysis （1. Auflage. 2025. 416 S. 244 mm）

Herausgegeben:Zhang, Zhicheng/ Sun, Yuanmiao

ウェブストア価格 ¥38,778（本体¥35,253）
WILEY-VCH（2025/11発売）
外貨定価 EUR 149.00
ポイント 352pt

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製本 Hardcover:ハードカバー版
商品コード 9783527354405

Full Description

A practical and authoritative examination of the electrochemical energy conversion

In Electrochemical Energy Conversion via Small Molecule Catalysis, a team of distinguished researchers delivers an up-to-date discussion of state-of-the-art techniques of electrochemical energy conversion conducted with small molecule catalysis. The authors cover the foundational concepts and theories relevant to the technique, electrochemical oxygen evolution reaction, electrochemical oxygen reduction reaction, and electrochemical carbon-nitrogen coupling reaction.

Readers will find detailed explorations of the characterization techniques and the computational approaches for catalysis evaluation and prediction. You'll also discover examinations of the mechanisms and development status of many widely employed energy conversion reactions.

The book includes:

A thorough introduction to constant-potential modeling in CO2 reduction
Comprehensive explorations of advanced in situ characterization techniques for direct observation of gas-involved electrochemical reactions
Practical discussions of dynamic structural evolution identification via x-ray absorption fine structure
Complete treatments of catalysts for electrocatalytic oxygen reduction reaction

Perfect for electrochemists, catalytic chemists, and materials scientists, Electrochemical Energy Conversion via Small Molecule Catalysis will also benefit chemical engineers, environmental chemists, and polymer chemists.

Preface xv

Acknowledgments xvii

1 Introduction 1
Yiran Zhang, Zhicheng Zhang

1.1 Origins and Evolution of Small-molecule Catalysis for Electrochemical Energy Conversion 1

1.2 Current State of Small-molecule Catalysis in Electrochemical Energy Conversion 2

1.3 Challenges in Small-molecule Catalysis for Electrochemical Energy Conversion 3

1.4 Opportunities and Future Outlook 4

Acknowledgment 4

2 Electrochemical Energy Conversion Techniques 7
Zhongxin Chen, Huaiguang li

2.1 Introduction: The Future Is Electrifying 7

2.2 Fuel Cells and Electrolyzers 9

2.3 Batteries and Supercapacitors 18

2.4 Summary 20

3 Constant-potential Modeling in Electrochemical CO 2 Reduction 23
Yaqiong Su

3.1 Introduction 23

3.2 Principle of Constant-potential Modeling 24

3.3 Constant-potential Modeling of Electrochemical CO 2 RR 25

3.4 Conclusion and Outlook 37

Acknowledgment 37

4 Advanced In Situ Characterization Techniques for Direct Observation of Gas-involved Electrochemical Reactions 43
Yue Zhai, Jiamin Zhu, ShuHui Li, Luohua Liu, Li An

4.1 Introduction 43

4.2 In Situ Infrared Technique 44

4.3 Electrochemical Quartz Crystal Microbalance 48

4.4 X-ray Powder Diffraction 53

4.5 In Situ Differential Electrochemical Mass Spectrometer 56

4.6 In Situ Raman Spectroscopy 60

4.7 In Situ Fluorescence Spectrum 65

4.8 X-ray Photoelectron Spectrometer 67

4.9 Ultraviolet Photoelectron Spectrometer 71

5 Dynamic Structural Evolution Identification via X-ray Absorption Fine Structure 77
Chengyi Liu, Shibo xi

5.1 Introduction 77

5.2 Fundamentals of XAFS 78

5.3 XAFS Data Analysis and Interpretation 84

5.4 In Situ and Operando XAFS Techniques 90

5.5 Advanced XAFS Methods 95

5.6 Dynamic Structural Evolution in Catalysts 99

5.7 Application of XAFS in Electrochemical Energy Conversion 101

5.8 Conclusion and Outlook 104

Acknowledgment 105

6 Electrochemical Hydrogen Evolution Reaction 111
Xinran Sun, Boxin Xiao, Jiaqing Liu, Xue Feng Lu

6.1 Introduction 111

6.2 Performance Evaluation Criteria and Methods 114

6.3 Advanced Electrocatalysts for HER 118

6.4 Summary and Perspective 129

Acknowledgment 132

7 Electrochemical Oxygen Evolution Reaction 139
Yifan Ma, Junhua Li, Ying Tang, Hang An, Xiaopeng Wang

7.1 Introduction 139

7.2 The State-of-the-art Characterization Techniques 141

7.3 OER Mechanisms 143

7.4 The Mechanism and Development Status of Some Typical Energy Conversion Reactions 147

7.5 Catalysis Evaluation and Prediction 149

7.6 Conclusion 150

Acknowledgment 150

8 Electrochemical Hydrogen/Liquid Fuel Oxidation Reaction 157
Ran Wang, Huan Pang

8.1 Introduction 157

8.2 Hydrogen Fuel Oxidation Reaction 158

8.3 Liquid Fuel Oxidation Reaction 164

8.4 Conclusion and Outlook 172

Acknowledgment 173

9 Catalysts for Electrocatalytic Oxygen Reduction Reaction 183
An-Liang Wang

9.1 Introduction 183

9.2 The ORR Mechanism 183

9.3 ORR Catalyst Characterization Techniques 185

9.4 The Category of ORR Catalyst 186

9.5 Pd-based Metal Catalysts 190

9.6 Non-platinum Group Metal Catalysts 192

9.7 Metal-free Catalysts 194

9.8 Single-atom Catalysts 195

9.9 Conclusion and Outlook 200

Acknowledgment 201

10 Electrochemical Conversion of Biomass Derivatives 209
Tao Zhang, Jing Peng

10.1 Introduction 209

10.2 Fundamentals of Electrooxidation of Biomass Derivatives 210

10.3 Cathodic Reaction in Biomass Electrooxidation System 218

10.4 Challenges and Future Perspectives 224

11 Electrochemical CO 2 Reduction and Conversion 231
Jiapeng Ji, Xiaolong Zhang

11.1 Introduction 231

11.2 Fundamentals of ECR 233

11.3 Catalysts for ECR 236

11.4 Mechanisms and Pathways of ECR 240

11.5 Challenges and Opportunities 246

11.6 Case Studies and Applications 254

11.7 Future Perspectives 257

11.8 Conclusion 258

12 Electrochemical Nitrogen Fixation and Conversion 269
Rong Zhang, Shaoce Zhang, Ying Guo

12.1 Introduction 269

12.2 Electrocatalytic N 2 Reduction Reaction 271

12.3 Electrocatalytic N 2 Oxidation Reaction 289

12.4 Conclusion and Outlook 295

Acknowledgment 296

13 Recent Progress in Electrochemical C-NCoupling Reactions 311
Chu Zhang, Chunyuan Feng, Lixiang Zhong, Chade lv

13.1 Introduction 311

13.2 Milestones in Electrocatalytic C-NCoupling 312

13.3 Fundamentals of Electrocatalytic C-NCoupling 313

13.4 Electrocatalytic C-N Coupling for Urea Synthesis 320

13.5 Electrocatalytic C-N Coupling for Amide Synthesis 330

13.6 Mechanistic Understanding of Electrocatalytic C-NCoupling 335

13.7 Summary 341

Acknowledgment 341

14 Electrochemical Fluorination 347
Meng Li, Chuang Fan, Gengtao Fu

14.1 Introduction 347

14.2 Electrochemically Driven Fluoroalkylation 348

14.3 Electrochemical Selective Fluorination of Alkenes 352

14.4 Ionic Liquids-facilitated Electrofluorination 356

14.5 Electrochemical Fluorination Using Alkali Metal Fluorides 360

14.6 Conclusion and Outlook 362

Acknowledgment 363

15 Electrochemical Polymerization: Synthesis of Functional Films for Energy Devices 367
Yansong Zhou, Shuangyin Wang

15.1 Introduction 367

15.2 General Principles of Electrochemical Polymerization 368

15.3 Advanced Electrochemical Polymerization Technology 371

15.4 Electrochemical Polymerization in the Fabrication of Functional Films 372

15.5 Concluding Remarks 375

Acknowledgment 376

16 Summary and Perspective 383
Yuanmiao Sun

16.1 Summary 383

16.2 Perspective 384

Index 385