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Novel Carbon Materials and Composites
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Synthesis, Properties and Applications
Besorgungstitel - wird vorgemerkt | Lieferzeit: Besorgungstitel - Lieferbar innerhalb von 10 Werktagen I
Artikel-Nr:
9781119313397
Veröffentl:
2019
Erscheinungsdatum:
28.05.2019
Seiten:
304
Autor:
Xin Jiang
Gewicht:
771 g
Format:
246x173x18 mm
Sprache:
Englisch
Beschreibung:
EDITORS
Xin Jiang, is a professor and holder of the Chair of Surface and Materials Technology at University of Siegen, Germany.
Zhenhui Kang, is a professor in the Institute of Functional Nano & Soft Materials and the Jiangsu Key Laboratory for Carbon-Based Functional Materials & Devices in Soochow University, People's Republic of China.
Xiaoning Guo, is a research assistant at the Institute of Coal Chemistry, Chinese Academy of Sciences, People's Republic of China.
Hao Zhuang, is a senior scientist at University of Siegen, Germany.
NANOCARBON CHEMISTRY AND INTERFACES
SERIES EDITOR Nianjun Yang Institute of Materials Engineering, University of Siegen, Germany
This series reflects recent developments and findings in the field of nanocarbon chemistry and interfaces; one of the most important aspects of nanocarbon research. Topics covered include the formation, structure and properties of diamond, diamond nanoparticles, graphene, graphene-oxide, graphene (quantum) dots, carbon nanotubes, carbon fibers, fullerenes, carbon dots, carbon composites, and their hybrids. Key applications in electroanalysis, biosensing, catalysis, electrosynthesis, energy storage and conversion, environment sensing and protection, biology, and medicine are highlighted.
Xin Jiang, is a professor and holder of the Chair of Surface and Materials Technology at University of Siegen, Germany.
Zhenhui Kang, is a professor in the Institute of Functional Nano & Soft Materials and the Jiangsu Key Laboratory for Carbon-Based Functional Materials & Devices in Soochow University, People's Republic of China.
Xiaoning Guo, is a research assistant at the Institute of Coal Chemistry, Chinese Academy of Sciences, People's Republic of China.
Hao Zhuang, is a senior scientist at University of Siegen, Germany.
NANOCARBON CHEMISTRY AND INTERFACES
SERIES EDITOR Nianjun Yang Institute of Materials Engineering, University of Siegen, Germany
This series reflects recent developments and findings in the field of nanocarbon chemistry and interfaces; one of the most important aspects of nanocarbon research. Topics covered include the formation, structure and properties of diamond, diamond nanoparticles, graphene, graphene-oxide, graphene (quantum) dots, carbon nanotubes, carbon fibers, fullerenes, carbon dots, carbon composites, and their hybrids. Key applications in electroanalysis, biosensing, catalysis, electrosynthesis, energy storage and conversion, environment sensing and protection, biology, and medicine are highlighted.
Connects knowledge about synthesis, properties, and applications of novel carbon materials and carbon-based composites
This book provides readers with new knowledge on the synthesis, properties, and applications of novel carbon materials and carbon-based composites, including thin films of silicon carbide, carbon nitrite, and their related composites. It examines the direct bottom-up synthesis of the carbon-based composite systems and their potential applications, and discusses the growth mechanism of the composite structures. It features applications that range from mechanical, electronic, chemical, biochemical, medical, and environmental to functional devices.
Novel Carbon Materials and Composites: Synthesis, Properties and Applications covers an overview of the synthesis, properties, and applications of novel carbon materials and composites. Especially, it covers everything from chemical vapor deposition of silicon carbide films and their electrochemical applications to applications of various novel carbon materials for the construction of supercapacitors to chemical vapor deposition of diamond/silicon carbide composite films to the covering and fabrication processes of nanodot composites.
* Looks at the recent progress and achievements in the fields of novel carbon materials and composites, including thin films of silicon carbide, carbon nitrite, and their related composites
* Discusses the many applications of carbon materials and composites
* Focuses on the hot topic of the fabrication of carbon-based composite materials and their abilities to extend the potential applications of carbon materials
* Published as a title in the new Wiley book series Nanocarbon Chemistry and Interfaces.
Novel Carbon Materials and Composites: Synthesis, Properties and Applications is an important book for academic researchers and industrial scientists working in the fabrication and application of carbon materials and carbon-based composite materials and related fields.
This book provides readers with new knowledge on the synthesis, properties, and applications of novel carbon materials and carbon-based composites, including thin films of silicon carbide, carbon nitrite, and their related composites. It examines the direct bottom-up synthesis of the carbon-based composite systems and their potential applications, and discusses the growth mechanism of the composite structures. It features applications that range from mechanical, electronic, chemical, biochemical, medical, and environmental to functional devices.
Novel Carbon Materials and Composites: Synthesis, Properties and Applications covers an overview of the synthesis, properties, and applications of novel carbon materials and composites. Especially, it covers everything from chemical vapor deposition of silicon carbide films and their electrochemical applications to applications of various novel carbon materials for the construction of supercapacitors to chemical vapor deposition of diamond/silicon carbide composite films to the covering and fabrication processes of nanodot composites.
* Looks at the recent progress and achievements in the fields of novel carbon materials and composites, including thin films of silicon carbide, carbon nitrite, and their related composites
* Discusses the many applications of carbon materials and composites
* Focuses on the hot topic of the fabrication of carbon-based composite materials and their abilities to extend the potential applications of carbon materials
* Published as a title in the new Wiley book series Nanocarbon Chemistry and Interfaces.
Novel Carbon Materials and Composites: Synthesis, Properties and Applications is an important book for academic researchers and industrial scientists working in the fabrication and application of carbon materials and carbon-based composite materials and related fields.
List of Contributors xi
Series Preface xiii
Preface xv
1 Cubic Silicon Carbide: Growth, Properties, and Electrochemical Applications 1
Nianjun Yang and Xin Jiang
1.1 General Overview of Silicon Carbide 1
1.1.1 SiC Properties 1
1.1.2 SiC Applications 3
1.1.3 Scope of this Chapter 4
1.2 Synthesis of Silicon Carbide 4
1.2.1 Acheson Process 4
1.2.2 Physical Vapor Transport 5
1.2.3 Chemical Vapor Deposition 5
1.3 Properties of Cubic Silicon Carbide 9
1.3.1 Surface Morphology 9
1.3.2 Electrochemical Properties 12
1.3.3 Surface Chemistry 16
1.3.3.1 Surface Terminations 16
1.3.3.2 Surface Functionalization 17
1.4 Electrochemical Applications of Cubic Silicon Carbide Films 20
1.4.1 Electrochemical Sensors 20
1.4.2 Biosensors 20
1.4.3 Energy Storage 21
1.4.4 Other Applications 24
1.5 Conclusions 24
Acknowledgements 26
References 26
2 Application of Silicon Carbide in Photocatalysis 35
Xiao-Ning Guo, Xi-Li Tong and Xiang-Yun Guo
2.1 Preparation of SiC with High Surface Area 36
2.1.1 Carbon Template Method 37
2.1.2 Sol-gel Method 40
2.1.3 Polycarbosilane Pyrolysis Method 42
2.2 Photocatalytic Water-Splitting 43
2.3 Photocatalytic Degradation of Pollutants 54
2.4 Photocatalytic Selective Organic Transformations 57
2.5 Photocatalytic CO2 Reduction 66
References 69
3 Application of Silicon Carbide in Electrocatalysis 73
Xiao-Ning Guo, Xi-Li Tong and Xiang-Yun Guo
3.1 Electrochemical Sensors 73
3.2 Direct Methanol Fuel Cells 76
3.3 Dye-sensitized Solar Cells 83
3.4 Lithium-ion Batteries 86
3.5 Supercapacitors 88
References 95
4 Carbon Nitride Fabrication and Its Water-Splitting Applications 99
Yanhong Liu, Baodong Mao and Weidong Shi
4.1 Introduction 99
4.2 Preparation of Pristine g-C3N4 100
4.2.1 Effect of Precursors 102
4.2.2 Effect of Reaction Parameters 102
4.3 Bandgap Engineering by Doping and Copolymerization 104
4.3.1 Doping of g-C3N4 104
4.3.1.1 C-doping and N-vacancy 104
4.3.1.2 S-doping 106
4.3.1.3 P-doping 106
4.3.1.4 Metal doping 107
4.3.2 Copolymerization of g-C3N4 107
4.4 Nanostructure Engineering of g-C3N4 109
4.4.1 Ordered Mesoporous Nanostructures of g-C3N4 109
4.4.1.1 Hard Templating Methods 109
4.4.1.2 Soft Templating Methods 110
4.4.1.3 Template-free Methods 112
4.4.2 Exfoliation to 2D Nanosheets of g-C3N4 113
4.4.3 0D Quantum Dots of g-C3N4 115
4.5 g-C3N4 Composite Photocatalysts 117
4.5.1 Metal/g-C3N4 Heterojunctions 117
4.5.2 Graphitic Carbon/g-C3N4 Heterojunctions 120
4.5.3 Semiconductors/g-C3N4 Heterojunctions 122
4.5.3.1 Type-II Heterojunction 123
4.5.3.2 Z-scheme 124
4.5.3.3 0D/2D Heterostructures 124
4.5.3.4 g-C3N4 Homojunctions 125
4.5.3.5 Dyes Sensitization 126
4.5.4 Deposition of Earth-Abundant Cocatalysts 128
4.6 Conclusions and Outlook 130
References 132
5 Carbon Materials for Supercapacitors 137
Yanfang Gao, Zijun Shi and Lijun Li
5.1 Introduction 137
5.2 Affecting Factors 139
5.2.1 Specific Surface Area 139
5.2.2 Pore Size 139
5.2.3 Surface Functional Groups 141
5.2.4 Elect
Series Preface xiii
Preface xv
1 Cubic Silicon Carbide: Growth, Properties, and Electrochemical Applications 1
Nianjun Yang and Xin Jiang
1.1 General Overview of Silicon Carbide 1
1.1.1 SiC Properties 1
1.1.2 SiC Applications 3
1.1.3 Scope of this Chapter 4
1.2 Synthesis of Silicon Carbide 4
1.2.1 Acheson Process 4
1.2.2 Physical Vapor Transport 5
1.2.3 Chemical Vapor Deposition 5
1.3 Properties of Cubic Silicon Carbide 9
1.3.1 Surface Morphology 9
1.3.2 Electrochemical Properties 12
1.3.3 Surface Chemistry 16
1.3.3.1 Surface Terminations 16
1.3.3.2 Surface Functionalization 17
1.4 Electrochemical Applications of Cubic Silicon Carbide Films 20
1.4.1 Electrochemical Sensors 20
1.4.2 Biosensors 20
1.4.3 Energy Storage 21
1.4.4 Other Applications 24
1.5 Conclusions 24
Acknowledgements 26
References 26
2 Application of Silicon Carbide in Photocatalysis 35
Xiao-Ning Guo, Xi-Li Tong and Xiang-Yun Guo
2.1 Preparation of SiC with High Surface Area 36
2.1.1 Carbon Template Method 37
2.1.2 Sol-gel Method 40
2.1.3 Polycarbosilane Pyrolysis Method 42
2.2 Photocatalytic Water-Splitting 43
2.3 Photocatalytic Degradation of Pollutants 54
2.4 Photocatalytic Selective Organic Transformations 57
2.5 Photocatalytic CO2 Reduction 66
References 69
3 Application of Silicon Carbide in Electrocatalysis 73
Xiao-Ning Guo, Xi-Li Tong and Xiang-Yun Guo
3.1 Electrochemical Sensors 73
3.2 Direct Methanol Fuel Cells 76
3.3 Dye-sensitized Solar Cells 83
3.4 Lithium-ion Batteries 86
3.5 Supercapacitors 88
References 95
4 Carbon Nitride Fabrication and Its Water-Splitting Applications 99
Yanhong Liu, Baodong Mao and Weidong Shi
4.1 Introduction 99
4.2 Preparation of Pristine g-C3N4 100
4.2.1 Effect of Precursors 102
4.2.2 Effect of Reaction Parameters 102
4.3 Bandgap Engineering by Doping and Copolymerization 104
4.3.1 Doping of g-C3N4 104
4.3.1.1 C-doping and N-vacancy 104
4.3.1.2 S-doping 106
4.3.1.3 P-doping 106
4.3.1.4 Metal doping 107
4.3.2 Copolymerization of g-C3N4 107
4.4 Nanostructure Engineering of g-C3N4 109
4.4.1 Ordered Mesoporous Nanostructures of g-C3N4 109
4.4.1.1 Hard Templating Methods 109
4.4.1.2 Soft Templating Methods 110
4.4.1.3 Template-free Methods 112
4.4.2 Exfoliation to 2D Nanosheets of g-C3N4 113
4.4.3 0D Quantum Dots of g-C3N4 115
4.5 g-C3N4 Composite Photocatalysts 117
4.5.1 Metal/g-C3N4 Heterojunctions 117
4.5.2 Graphitic Carbon/g-C3N4 Heterojunctions 120
4.5.3 Semiconductors/g-C3N4 Heterojunctions 122
4.5.3.1 Type-II Heterojunction 123
4.5.3.2 Z-scheme 124
4.5.3.3 0D/2D Heterostructures 124
4.5.3.4 g-C3N4 Homojunctions 125
4.5.3.5 Dyes Sensitization 126
4.5.4 Deposition of Earth-Abundant Cocatalysts 128
4.6 Conclusions and Outlook 130
References 132
5 Carbon Materials for Supercapacitors 137
Yanfang Gao, Zijun Shi and Lijun Li
5.1 Introduction 137
5.2 Affecting Factors 139
5.2.1 Specific Surface Area 139
5.2.2 Pore Size 139
5.2.3 Surface Functional Groups 141
5.2.4 Elect
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