一维纳米结构材料概念、应用和展望(英文版)(当代科学技术基础理论与前沿问题研究丛书:中国科学技术大学校友文库“十一五”国家重点图书)(One-Dimensional Nanostructures Concepts,Applications and Perspectives)
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品牌: 周勇
基本信息·出版社:中国科学技术大学出版社
·页码:272 页
·出版日期:2009年07月
·ISBN:9787312022012
·条形码:9787312022012
·包装版本:第1版
·装帧:平装
·开本:16
·正文语种:英语
·丛书名:当代科学技术基础理论与前沿问题研究丛书:中国科学技术大学校友文库“十一五”国家重点图书
·外文书名:One-Dimensional Nanostructures Concepts,Applications and Perspectives
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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。《一维纳米结构材料概念、应用和展望(英文版)》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最新科技研究成果。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。
《一维纳米结构材料概念、应用和展望(英文版)》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。
编辑推荐《一维纳米结构材料概念、应用和展望(英文版)》:
当代科学技术基础理论与前沿问题研究丛书:中国科学技术大学校友文库“十一五”国家重点图书
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
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 nanolasers
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 Heterostructures
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 Conclusion and remarks
References
Chapter 7 Bio 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
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序言大学最重要的功能是向社会输送人才。大学对于一个国家、民族乃至世界的重要性和贡献度,很大程度上是通过毕业生在社会各领域所取得的成就来体现的。
中国科学技术大学建校只有短短的五十年,之所以迅速成为享有较高国际声誉的著名大学之一,主要就是因为她培养出了一大批德才兼备的优秀毕业生。他们志向高远、基础扎实、综合素质高、创新能力强,在国内外科技、经济、教育等领域做出了杰出的贡献,为中国科大赢得了“科技英才的摇篮”的美誉。
2008年9月,胡锦涛总书记为中国科大建校五十周年发来贺信,信中称赞说:半个世纪以来,中国科学技术大学依托中国科学院,按照全院办校、所系结合的方针,弘扬红专并进、理实交融的校风,努力推进教学和科研工作的改革创新,为党和国家培养了一大批科技人才,取得了一系列具有世界先进水平的原创性科技成果,为推动我国科教事业发展和社会主义现代化建设做出了重要贡献。
据统计,中国科大迄今已毕业的5万人中,已有42人当选中国科学院和中国工程院院士,是同期(自1963年以来)毕业生中当选院士数最多的高校之一。其中,本科毕业生中平均每1000人就产生1名院士和七百多名硕士、博士,比例位居全国高校之首。还有众多的中青年才俊成为我国科技、企业、教育等领域的领军人物和骨干。在历年评选的“中国青年五四奖章”获得者中,作为科技界、科技创新型企业界青年才俊代表,科大毕业生已连续多年榜上有名,获奖总人数位居全国高校前列。
文摘插图:
When a NW was deflected, the outer surface was stretched and the innersurface was compress. According to the piezoelectric effect, an electric fieldEz was generated along the Z axis of the NW. This induced a voltage dropVs- to Vs across the top end of the NW with first order approximation.This potential drop was created by the relative displacement of Zn2 + cationsand 02- anions, so it cannot be freely moved or neutralized without anyinjected carriers. Thus this potential is persisted in the deflection process ofthe NWs. The AFM tip is a Si tip coating with Pt layer. Due to the large workfunction difference of Pt and ZnO, they form a Schottky contact between thetip and the NW. When the AFM tip was in contact with the front end(stretched side) of the NW, which has a positive bias, the metal andsemiconductor contact is negative biased. The current flow was prohibited bythe Schottky contact. When the tip moved the compressed side of this NW,the metal and semiconductor contact is positive biased. This produced a suddenincrease in the conducting current. This current is formed by the voltage drop acrossthe contacts. The free electrons flow from the loop into the NW and neutralizedionic charges formed by the piezoelectric effect. Thus the VL starts to drop to zero.This piezoelectric energy formation and releasing principle is shown in Figure 2.16which is the basic working principle of nanogenerator and nanopiezoelectronics.
In this section, a new field in nanotechnology, nanopiezotronics isintroduced. Working principle of these devices relies on the unique coupling ofZnO's piezoelectric and semiconducting properties.In the demonstratedwork, piezotronics devices based on ZnO NW exhibit potentials to convertbiological mechanical energy, acoustic/ultrasonic vibration energy, and biofluidhydraulic energy into electricity. This is a new path way for energy converting andcollecting, which is a crucial progres
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