![Advanced Materials Science and Engineering of Carbon先进碳材料科学与工程 [日]Michio Inagaki, [中]Feiyu Kang, [日]Masahiro Toyoda, [日]Hidetaka Konno 清华大学出版社](https://wqxuetang.oss-cn-beijing.aliyuncs.com/cover/0/9/9906/9906.jpg!m)
Advanced Materials Science and Engineering of Carbon先进碳材料科学与工程
作者:[日]Michio Inagaki, [中]Feiyu Kang, [日]Masahiro Toyoda, [日]Hidetaka Konno
出版:清华大学出版社
年代:2013 更多图书信息
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图书简介
Carbon materials are exceptionally diverse in their preparation, structure, texture, and applications.In Advanced Materials Science and Engineering of Carbon, noted carbon scientist Michio Inagaki and his co-authors cover the most recent advances in carbon materials, including new techniques and processes, carbon materials synthesis, and up-to-date descriptions of current carbon-based materials, trends and applications.Beginning with the synthesis and preparation of nanocarbons, carbon nanotubes, and graphenes, the book then reviews recently developed carbonization techniques, such as templating, electrospinning, foaming, stress graphitization, and the formation of glass-like carbon. The last third of the book is devoted to applications, featuring coverage of carbon materials for energy storage (electrochemical capacitors, lithium-ion rechargeable batteries,and adsorptive storage of hydrogen and methane), for environmental protection (photocatalysis,spilled oil recovery, and adsorption of VOCs, etc.), for thermal management, and for nuclear applications.
目录
Acknowledgment
CHAPTER 1 Introduction
1.1 Classification of carbon materials
1.2 Nanotexture of carbon materials
1.3 Microtexture of carbon materials
1.4 Specification of carbon materials
1.5 Construction of the present book
References
CHAPTER 2 Carbon Nanotubes: Synthesis and Formation
2.1 Synthesis of carbon nanotubes
2.2 Formation of carbon nanotubes
2.2.1 Formation into yarns
2.2.2 Formation into sheets
2.2.3 Formation into sponges
2.3 Applications of carbon nanotubes
2.4 Concluding remarks
References
CHAPTER 3 Graphene: Synthesis and Preparation
3.1 Preparation through the cleavage of graphite
3.2 Preparation through the exfoliation of graphite
3.2.1 Preparation using graphite oxides
3.2.2 Preparation using graphite intercalation compounds
3.3 Synthesis through chemical vapor deposition
3.4 Synthesis through the organic route
3.5 Preparation through other processes
3.6 Concluding remarks
References
CHAPTER 4 Carbonization Under Pressure
4.1 Carbonization under built-up pressure
4.1.1 Setup for carbonization under pressure
4.1.2 Optical texture and carbonization yield
4.1.3 Particle morphology
4.2 Carbonization under hydrothermal conditions
4.3 Carbonization under supercritical conditions
4.4 Concluding remarks
4.4.1 Temperature and pressure conditions for carbonization
4.4.2 Composition of precursors for the formation of carbon spheres
References
CHAPTER 5 Stress Graphitization
5.1 Graphitization under pressure
5.1.1 Structural change in carbons
5.1.2 Mechanism
5.2 Graphitization in coexistence with minerals under pressure
5.2.1 Coexistence with calcium compounds
5.2.2 Coexistence with other minerals
5.2.3 Mechanism for acceleration of graphitization
5.3 Stress graphitization in carbon/carbon composites
5.3.1 Acceleration of graphitization
5.3.2 Mechanism
5.4 Concluding remarks
5.4.1 Graphitization under pressure
5.4.2 Occurrence of graphite in nature
5.4.3 Stress graphitization in carbon/carbon composites
References
CHAPTER 6 Glass-Iike Carbon: Its Activation and Graphitization
6.1 Activation of glass-like carbon
6.1.1 Glass-Iike carbon spheres
6.1.2 Activation in a flow of dry air
6.1.3 Activation in a flow of wet air
6.1.4 Activation process _
6.1.5 Direct observation of micropores
6.1.6 Two-step activation
6.2 Graphitization of glass-like carbons
6.2.1 Graphitization through melting
6.2.2 Graphitization under high pressure
6.2.3 Graphitization in C/C composites
6.3 Concluding remarks
References
CHAPTER 7 Template Carbonization: Morphology and Pore Control
CHAPTER 8 Carbon Nanofibers Via Electrospinning
CHAPTER 9 Carbon Foams
CHAPTER 10 Nanoporous Carbon Membranes and Webs
CHAPTER 11 Carbon Materials for Electrochemical Capacitors
CHAPTER 12 Carbon Materials in Lithium-ion Rechargeable Batteries
CHAPTER 13 Carbon Materials in Photocatalysis
CHAPTER 14 Carbon Materials for Spilled-oil Recovery
CHAPTER 15 Carbon Materials for Adsorption of Molecules and lons
CHAPTER 16 Highly Oriented Graphite with High Thermal Conductivity
CHAPTER 17 Isotropic High-density Graphite and Nuclear Applications
INDEX
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ISBN:9787302347170
清华大学出版社
清华大学出版社成立于1980年6月,是由教育部主管、清华大学主办的综合出版单位。植根于“清华”这座久负盛名的高等学府,秉承清华人“自强不息,厚德载物”的人文精神,清华大学出版社在短短二十多年的时间里,迅速成长起来。作为来自一流大学的出版单位,清华大学出版社始终坚持弘扬科技文化产业、服务科教兴国战略的出版方向,把出版高等学校教学用书和科技图书作为主要任务,并为促进学术交流、繁荣出版事业设立了多项出版基金,逐渐形成了以出版高水平的教材和学术专著为主的鲜明特色,在教育出版领域树立了强势品牌。目前,清华版教材已在全国一百多所院校得到广泛使用。高品质、多层次的计算机图书是清华大学出版社的一大品牌支柱。20世纪80年代末,在席卷全球的信息化浪潮中,清华大学出版社快速切入计算机图书市场,逐渐成为并一直保持这一市场的领先地位,为发展中国计算机教育做出了巨大贡献。
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