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石墨烯材料热学和电学性能研究:从非简谐效应视角 郑瑞伦,夏继宏,杨文耀著 201

石墨烯材料热学和电学性能研究:从非简谐效应视角  

作者:郑瑞伦,夏继宏,杨文耀著  

出版时间:2019年版 

内容简介 

  本书是学术著作,反映了作者科研团队在石墨烯材料热力学和电学性质,特别是非简谐效应理论领域的研究成果。该书在介绍石墨烯材料的有关概念、分类和制备方法、普遍的物理化学性质以及石墨烯的结构和晶体结合的基础上,论述非简谐效应理论的有关概念、基本观点、研究问题的基本方法及其在三维、二维、纳米系统热学和电学性能等方面的一些应用。该书基于石墨烯、外延石墨烯、类石墨烯等石墨烯材料的结构以及组成粒子相互作用和运动特点,对石墨烯材料的热力学和电学性能的变化规律及其非简谐效应,从理论上进行深入的定量研究。该书突出了石墨烯材料的热学和电学性能非简谐效应在高蓄热材料器件、新能源、新器件、微电子、太赫兹、新型环境响应材料等方面的应用。该书的研究成果对石墨烯材料的研究和应用具有重要的理论和实际意义。 内 容 简 介 本书反映了我们科研团队多年来在石墨烯材料热力学和电学性质,特别是非简谐效应理论领域的主要研究成果。在介绍石墨烯材料的有关概念、分类、制备方法、普遍的物理化学性质以及石墨烯的结构和晶体结合的基础上,论述非简谐效应理论的有关概念、基本观点、研究问题的基本方法及其在三维、二维、纳米系统热学和电学性能等方面的一些应用。基于石墨烯、外延石墨烯、类石墨烯等石墨烯材料的结构以及组成粒子的相互作用和运动特点,对石墨烯材料的热力学和电学性能的变化规律及其非简谐效应,从理论上进行深入的定量研究。突出了石墨烯材料的热学和电学性能非简谐效应在高蓄热材料器件、新能源、新器件、微电子、太赫兹、新型环境响应材料等方面的应用。本书对石墨烯材料的研究和应用具有重要的理论和实际意义。 本书以理论研究为主,基础理论有一定的深度和前沿性,系统性、逻辑性强,内容次序符合认知规律,突出了物理学科的学术特点,物理图像清晰,物理思想明确,便于阅读理解。可作为从事石墨烯材料研究和应用的研究人员和工程技术人员的参考书,也可作为材料、微电子等专业的教师、研究生的教学参考书。 

目录 

目  录 

1  石墨烯材料简介·································································· 001 

1.1  石墨烯材料的起源及分类··············································· 001 

1.1.1  石墨烯材料的起源················································ 001 

1.1.2  石墨烯材料的分类················································ 004 

1.2  石墨烯材料的基本性质·················································· 007 

1.2.1  石墨烯的力学性质················································ 007 

1.2.2  石墨烯的光学性质················································ 008 

1.2.3  石墨烯的化学性质················································ 008 

1.2.4  石墨烯的导电性··················································· 009 

1.2.5  石墨烯的导热性··················································· 010 

1.2.6  石墨烯的阻隔性··················································· 010 

1.3  石墨烯材料的制备方法简介············································· 011 

1.3.1  机械剥离法························································· 011 

1.3.2  外延生长法························································ 013 

1.3.3  氧化还原法························································ 014 

1.3.4  溶剂热法··························································· 019 

1.3.5  有机合成法························································ 020 

1.3.6  化学气相沉积法··················································· 021 

1.3.7  电弧放电法························································ 024 

1.3.8  等离子增强合成法················································ 025 

1.3.9  火焰法······························································ 027 

参考文献········································································· 029 

……….. 

8.4  金属基外延石墨烯热电效应的奇异现象······························· 303 

8.4.1  金属块体基外延石墨烯的热电势······························· 303 

8.4.2  金属薄膜基外延石墨烯的热电势······························· 304 

8.4.3  声子拖拽对外延石墨烯热电势的贡献·························· 306 

8.5  石墨烯热电性能的应用·················································· 308 

8.5.1  石墨烯热电性能在新型环境响应材料上的应用·············· 308 

8.5.2  石墨烯热电性能在热电器件上的应用·························· 313 

8.5.3  石墨烯热电性能在光电探测器上的应用······················· 315 

参考文献········································································· 317 

附   录················································································ 320 

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