描述
开 本: 16开纸 张: 胶版纸包 装: 平装是否套装: 否国际标准书号ISBN: 9787312022012丛书名: 当代科学技术基础理论与前沿问题研究丛书
编辑推荐
纳米材料是20世纪80年代中期一个迅速发展的材料科学领域,受到人们广泛的关注。本书选择性的汇集了国内外中国科技大学校友在一维纳米材料的****研究成果。书中介绍了一维纳米材料包括纳米线、纳米管和纳米带等当今研究的趋势、相关技术与未来发展方向,是化学、物理和材料等学科的基础理论研究与应用技术的前沿集成反映。
内容简介
纳米材料是20世纪80年代中期一个迅速发展的材料科学领域,受到人们广泛的关注。本书选择性的汇集了国内外中国科技大学校友在一维纳米材料的*科技研究成果。书中介绍了一维纳米材料包括纳米线、纳米管和纳米带等当今研究的趋势、相关技术与未来发展方向,是化学、物理和材料等学科的基础理论研究与应用技术的前沿集成反映。
本书适合于高等学校、科研院所以及相关企业从事纳米材料研发的科研人员和管理工作者,同时也可作为相关专业的师生和爱好者学习参考用书。
本书适合于高等学校、科研院所以及相关企业从事纳米材料研发的科研人员和管理工作者,同时也可作为相关专业的师生和爱好者学习参考用书。
目 录
Preface of Alumni’s Serials
Preface
Chapter 1 Lipid Nanotubes and Peptide Nanotubes: Formation and Applications for Scaffolding Nanomaterials
Abstract
1.1 Introduction
1.2 Formation of LNTs
1.3 Formation of PNTs
1.4 Templating nanostructures
1.4.1 LNT-templating nanostructures
1.4.2 PNTs templating nanostructures
1.5 Conclusion
Acknowledgments
References
Chapter 2 Introduction of Nanodevices Based on ZnO Nanowires/Nanobelts
Abstract
2.1 Introduction
2.2 Transport properties of ZnO nanowires/nanobelts
2.2.1 Field effect transistor based on ZnO NWs
2.2.2 Schottky diodes based on ZnO NBs/NWs
2.3 Piezoelectronics based on ZnO NWs/ NBs
2.3.1 Piezoelectricity and structure of ZnO
2.3.2 Piezoelectric nanogenerators
2.4 Optoelectronics based on ZnO NWs
2.4.1 UV detector
2.4.2 Nanowire based nano]asers
2.4.3 Nanowire array LED
2.5 Chemical and biological sensors based on ZnO nanowires
2.6 Doping modification, field emission and mechanical properties
2.6.1 Metal doping of ZnO
2.6.2 Field emission properties of ZnO nanowire arrays
2.6.3 Nanobalance based on ZnO nanowire
2.7 Summary
References
Chapter 3 Elastic Properties of One-dimensional Metal Nanoparticles Studied by Time-resolved Spectroscopy
3.1 Introduction
3.1.1 Metal nanoparticles
3.1.2 Time-resolved spectroscopy
3.2 Theory
3.3 Experimental apparatus and techniques
3.3.1 Synthesis of au nanorods
3.3.2 Transient absorption apparatus
3.4 Experimental results
3.4.1 Characterization of au nanorods
3.4.2 Transient absorption experiment
3.4.3 Elastic properties of gold nanorods
3.4.4 Discussion of the elastic moduli of metal nanorods
3.5 Summary and conclusion
Acknowledgment
References
Chapter 4 Microwave-assisted Rapid Preparation of One-dimensional Nanostructures
Abstract
4.1 Microwave-assisted ionic liquid (MAIL) method
4.1.1 Preparation of elemental 1-D nanostructures
4.1.2 Preparation of 1-D nanostructures of metal oxides
4.1.3 Preparation of metal chalcogenide 1-D nanostructures
4.1.4 Preparation of nanostructures with other morphologies
4.2 Microwave-assisted polythiol reduction (MPTR) method
4.3 Microwave-assisted polyol method
4.4 Microwave-assisted polyol-water method
4.5 Microwave-assisted aqueous solution method
References
Chapter 5 Some Recent Developments in the Solution-Phase Synthesis of One-Dimensional Inorganic Nanostructures
Abstract
5.1 Introduction
5.2 Coordination compounds, structural characteristics to direct anisotropic growth
5.2.1 Simple complexes
5.2.2 Linear coordination cluster compounds
5.2.3 Metal-polymer coordination chains
5.2.4 3-D coordination polymers
5.3 Surfactant-based systems: microreactors to confine anisotropic growth
5.3.1 Rod-like micelles
5.3.2 Inorganic-surfactant intercalated mesostructures
5.4 Etching and twinning: two contributions to induce anisotropic growth
5.4.1 Localized oxidative etching on single-crystal seeds
5.4.2 Twin defects to break cubic symmetry
5.5 Concluding remarks
Acknowledgements
References
Chapter 6 One-Dimensional Nanoscale Heterostruetures
Abstract
6.1 Introduction
6.2 Synthetic routes for 1 – D nanoscale heterostructures
6.2.1 Vapor phase methods
6.2.2 Solution methods
6.2.3 Lithography
6.2.4 Electrospinning
6.2.5 Template directed methods
6.3 Typical 1 – D nanoscale heterostructures
6.3.1 Co-axial nanowires
6.3.2 Segmented nanowires
6.4 Oonclusion and remarks
References
Chapter 7 Bid Meets Nano: DNA-Based Synthesis and Assembly Toward One-Dimensional Nanostructures
7.1 Introduction
7.2 DNA templated electroless deposition for metallic nanowire fabrications
7.3 DNA directed assembly of nanoparticle linear arrays
7.3.1 DNA encoded one-dimensional array of gold nanoparticles
7.3.2 RCA facilitated assembly of long, sturdy and rigid DAEE array suitable for protein organization
7.4 One dimensional self-assembly on DNA-wrapped carbon nanotub
7.5 DNA nanotubes, constructions and functionalizations
7.6 Other examples of DNA-based one dimensional nanostructures
7.7 Outlook
Acknowledgements
References
Chapter 8 Soft Chemistry Routes to Synthesis of One-Dimensional Nanostructures and Their Properties
8.1 Introduction
8.2 Rare earth compound 1-D nanostructures
8.3 1-D nanostructures templated by organic additives
8.4 Biomimetic synthesis of 1-D nanostructures
8.5 Other functional 1-D nanostructured materials
8.6 The formation mechanism of 1-D nanostructures
8.7 Summary and outlook
Acknowledgement
References
Preface
Chapter 1 Lipid Nanotubes and Peptide Nanotubes: Formation and Applications for Scaffolding Nanomaterials
Abstract
1.1 Introduction
1.2 Formation of LNTs
1.3 Formation of PNTs
1.4 Templating nanostructures
1.4.1 LNT-templating nanostructures
1.4.2 PNTs templating nanostructures
1.5 Conclusion
Acknowledgments
References
Chapter 2 Introduction of Nanodevices Based on ZnO Nanowires/Nanobelts
Abstract
2.1 Introduction
2.2 Transport properties of ZnO nanowires/nanobelts
2.2.1 Field effect transistor based on ZnO NWs
2.2.2 Schottky diodes based on ZnO NBs/NWs
2.3 Piezoelectronics based on ZnO NWs/ NBs
2.3.1 Piezoelectricity and structure of ZnO
2.3.2 Piezoelectric nanogenerators
2.4 Optoelectronics based on ZnO NWs
2.4.1 UV detector
2.4.2 Nanowire based nano]asers
2.4.3 Nanowire array LED
2.5 Chemical and biological sensors based on ZnO nanowires
2.6 Doping modification, field emission and mechanical properties
2.6.1 Metal doping of ZnO
2.6.2 Field emission properties of ZnO nanowire arrays
2.6.3 Nanobalance based on ZnO nanowire
2.7 Summary
References
Chapter 3 Elastic Properties of One-dimensional Metal Nanoparticles Studied by Time-resolved Spectroscopy
3.1 Introduction
3.1.1 Metal nanoparticles
3.1.2 Time-resolved spectroscopy
3.2 Theory
3.3 Experimental apparatus and techniques
3.3.1 Synthesis of au nanorods
3.3.2 Transient absorption apparatus
3.4 Experimental results
3.4.1 Characterization of au nanorods
3.4.2 Transient absorption experiment
3.4.3 Elastic properties of gold nanorods
3.4.4 Discussion of the elastic moduli of metal nanorods
3.5 Summary and conclusion
Acknowledgment
References
Chapter 4 Microwave-assisted Rapid Preparation of One-dimensional Nanostructures
Abstract
4.1 Microwave-assisted ionic liquid (MAIL) method
4.1.1 Preparation of elemental 1-D nanostructures
4.1.2 Preparation of 1-D nanostructures of metal oxides
4.1.3 Preparation of metal chalcogenide 1-D nanostructures
4.1.4 Preparation of nanostructures with other morphologies
4.2 Microwave-assisted polythiol reduction (MPTR) method
4.3 Microwave-assisted polyol method
4.4 Microwave-assisted polyol-water method
4.5 Microwave-assisted aqueous solution method
References
Chapter 5 Some Recent Developments in the Solution-Phase Synthesis of One-Dimensional Inorganic Nanostructures
Abstract
5.1 Introduction
5.2 Coordination compounds, structural characteristics to direct anisotropic growth
5.2.1 Simple complexes
5.2.2 Linear coordination cluster compounds
5.2.3 Metal-polymer coordination chains
5.2.4 3-D coordination polymers
5.3 Surfactant-based systems: microreactors to confine anisotropic growth
5.3.1 Rod-like micelles
5.3.2 Inorganic-surfactant intercalated mesostructures
5.4 Etching and twinning: two contributions to induce anisotropic growth
5.4.1 Localized oxidative etching on single-crystal seeds
5.4.2 Twin defects to break cubic symmetry
5.5 Concluding remarks
Acknowledgements
References
Chapter 6 One-Dimensional Nanoscale Heterostruetures
Abstract
6.1 Introduction
6.2 Synthetic routes for 1 – D nanoscale heterostructures
6.2.1 Vapor phase methods
6.2.2 Solution methods
6.2.3 Lithography
6.2.4 Electrospinning
6.2.5 Template directed methods
6.3 Typical 1 – D nanoscale heterostructures
6.3.1 Co-axial nanowires
6.3.2 Segmented nanowires
6.4 Oonclusion and remarks
References
Chapter 7 Bid Meets Nano: DNA-Based Synthesis and Assembly Toward One-Dimensional Nanostructures
7.1 Introduction
7.2 DNA templated electroless deposition for metallic nanowire fabrications
7.3 DNA directed assembly of nanoparticle linear arrays
7.3.1 DNA encoded one-dimensional array of gold nanoparticles
7.3.2 RCA facilitated assembly of long, sturdy and rigid DAEE array suitable for protein organization
7.4 One dimensional self-assembly on DNA-wrapped carbon nanotub
7.5 DNA nanotubes, constructions and functionalizations
7.6 Other examples of DNA-based one dimensional nanostructures
7.7 Outlook
Acknowledgements
References
Chapter 8 Soft Chemistry Routes to Synthesis of One-Dimensional Nanostructures and Their Properties
8.1 Introduction
8.2 Rare earth compound 1-D nanostructures
8.3 1-D nanostructures templated by organic additives
8.4 Biomimetic synthesis of 1-D nanostructures
8.5 Other functional 1-D nanostructured materials
8.6 The formation mechanism of 1-D nanostructures
8.7 Summary and outlook
Acknowledgement
References
评论
还没有评论。