Produktbild: Triboelectric Nanogenerators
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Triboelectric Nanogenerators Technology, Applications, and Commercialization

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Beschreibung

Produktdetails

Einband

Gebundene Ausgabe

Erscheinungsdatum

23.04.2025

Abbildungen

mit 111 Farbabbildungen

Verlag

Wiley-VCH

Seitenzahl

320

Maße (L/B/H)

24,9/17,5/2,1 cm

Gewicht

780 g

Auflage

1. Auflage

Sprache

Englisch

ISBN

978-3-527-35042-1

Beschreibung

Produktdetails

Einband

Gebundene Ausgabe

Erscheinungsdatum

23.04.2025

Abbildungen

mit 111 Farbabbildungen

Verlag

Wiley-VCH

Seitenzahl

320

Maße (L/B/H)

24,9/17,5/2,1 cm

Gewicht

780 g

Auflage

1. Auflage

Sprache

Englisch

ISBN

978-3-527-35042-1

Herstelleradresse

Wiley-VCH GmbH
Boschstraße 12
69469 Weinheim
DE

Email: GPSR Kontakt

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  • Produktbild: Triboelectric Nanogenerators
  • Preface xi

    Introduction of Triboelectric Nanogenerator 1

    I.1 What is a Triboelectric Nanogenerator (TENG)? 1

    I.2 First-Principle Theoretical Model 1

    I.3 Equivalent Circuit Models and Basic Operation Modes 2

    I.4 Energy Conversion and Electromechanical Coupling Models 19

    I.5 Summary 21

    References 21

    1 Models of Triboelectric Effect 25

    1.1 Introduction 25

    1.2 Thermionic Emission Method 26

    1.3 Material-Dependent Charge Transfer Mechanism and Model 29

    1.4 Liquid-Solid Contact Electrification Mechanism 32

    1.5 Environmental and Material Effects on Charge Transfer 34

    1.6 Potential Applications 37

    1.7 Summary 38

    References 38

    2 Discharge Effects in TENG 45

    2.1 Introduction 45

    2.2 Theoretical Studies of Breakdown Discharge in Contact-Separation-Based TENGs 49

    2.3 Experimental Verification and Quantitative Measurements 49

    2.4 Photon Generation 56

    2.5 Potential Applications 58

    2.6 Summary 58

    References 59

    3 Figure-of-Merit of Triboelectric Nanogenerator 61

    3.1 Introduction 61

    3.2 Effective Maximized Energy Output 62

    3.3 Figure-of-Merit 67

    3.4 Output Energy Density 70

    3.5 Environmental and Techno-Economic Analysis 72

    3.6 Potential Applications 74

    3.7 Summary 74

    References 74

    4 Output Promotion by Environment 79

    4.1 High Vacuum Environment 79

    4.2 High Atmospheric Pressure and High-Breakdown-Limit Gas Environments 80

    4.3 Interfacial Liquid Lubrication 83

    4.4 Humidity 86

    4.5 Summary 89

    References 89

    5 DC-TENG: A New Paradigm 93

    5.1 Introduction 93

    5.2 Basic Principle 94

    5.3 Physical Model 95

    5.4 Optimization Methods for DC-TENG 96

    5.5 DC-TENG for Energy Harvesting 103

    5.6 DC-TENG for Self-Powered Sensing 105

    5.7 Hybrid of AC-TENG and DC-TENG 106

    5.8 Summary 109

    References 110

    6 Promotion of Contact Electrification at Liquid-Solid Interface 113

    6.1 Introduction 113

    References 120

    7 Output Promotion of Triboelectric Nanogenerator by Electromechanical Structures 125

    7.1 Introduction 125

    7.2 Charge Excitation Mechanism 128

    7.3 Other Promotion Strategies 135

    7.4 Summary 140

    References 141

    8 Power Management and Effective Energy Storage 145

    8.1 Introduction 145

    8.2 Theoretical Basis of Energy Management for TENG 147

    8.3 Mechanical Switched Converter 150

    8.4 Electronic Switch Converter 159

    8.5 Transformer Converter 165

    8.6 Conclusion and Perspective 167

    References 170

    9 Tribotronics 175

    9.1 Introduction 175

    9.2 Tribo-Potential 176

    9.3 Triboelectricity Modulate Field Effect 177

    9.4 Tribotronic Transistor 181

    9.5 Tribotronic Functional Devices 186

    9.6 Conclusion 196

    References 198

    10 Tribophotonics 203

    10.1 Introduction 203

    10.2 Tribophotonics: Concept, Origin, Characteristics, and Potential Applications 205

    10.3 Tribo-Induced EM-Wave Generation (TIEG) 207

    10.4 Tribo-Induced Light Propagation Tuning (TILPT) 215

    10.5 Triboelectrification-Induced Electroluminescence (TIEL) 220

    10.6 Tribo-Assisted Spectrometry (TAS) 225

    10.7 Potential Applications and Perspectives 227

    10.8 Challenges and Summary 228

    References 229

    11 TENG-Based Wearable Biomechanical Sensors and Human-Machine Interface 237

    11.1 Introduction 237

    11.2 TENG-Based Biomedical Sensing 238

    11.3 TENG-Based Human-Machine Interface 245

    11.4 Summary 254

    References 254

    12 TENG as the High-Voltage Source 259

    12.1 Introduction 259

    12.2 Overview of Materials and Universal Methods for TENG's Performance Enhancement 261

    12.3 Artificial Muscle Based on Dielectric Elastomer and TENG 268

    12.4 Microactuators Based on Piezoelectric Ceramics and TENG 272

    12.5 Materials Polarized by the High Voltage Output From TENG 273

    12.6 Electrostatic Manipulator Driven by TENG 278

    12.7 Electrostatic Adsorption and Air Cleaning Based on TENG 282

    12.8 Electronic Excitation and Ion Generation Powered by TENG 287

    12.9 Summary and Perspectives 294

    References 296

    Index 299