《石墨烯材料熱學和電學性能研究:從非簡諧效應視角》是2018年西南交通大學出版社出版的圖書
基本介紹
- 中文名:石墨烯材料熱學和電學性能研究:從非簡諧效應視角
- 作者:鄭瑞倫、夏繼宏、楊文耀
- 出版社:西南交通大學出版社
- 出版時間:2018年12月01日
- 開本:16 開
- 裝幀:平裝
- ISBN:9787564367077
內容簡介,目錄,
內容簡介
本書是學術著作,反映了作者科研團隊在石墨烯材料熱力學和電學性質,特別是非簡諧效應理論領域的研究成果。該書在介紹石墨烯材料的有關概念、分類和製備方法、普遍的物理化學性質以及石墨烯的結構和晶體結合的基礎上,論述非簡諧效應理論的有關概念、基本觀點、研究問題的基本方法及其在三維、二維、納米系統熱學和電學性能等方面的一些套用。該書基於石墨烯、外延石墨烯、類石墨烯等石墨烯材料的結構以及組成粒子相互作用和運動特點,對石墨烯材料的熱力學和電學性能的變化規律及其非簡諧效應,從理論上進行深入的定量研究。該書突出了石墨烯材料的熱學和電學性能非簡諧效應在高蓄熱材料器件、新能源、新器件、微電子、太赫茲、新型環境回響材料等方面的套用。該書的研究成果對石墨烯材料的研究和套用具有重要的理論和實際意義。
內 容 簡 介
本書反映了我們科研團隊多年來在石墨烯材料熱力學和電學性質,特別是非簡諧效應理論領域的主要研究成果。在介紹石墨烯材料的有關概念、分類、製備方法、普遍的物理化學性質以及石墨烯的結構和晶體結合的基礎上,論述非簡諧效應理論的有關概念、基本觀點、研究問題的基本方法及其在三維、二維、納米系統熱學和電學性能等方面的一些套用。基於石墨烯、外延石墨烯、類石墨烯等石墨烯材料的結構以及組成粒子的相互作用和運動特點,對石墨烯材料的熱力學和電學性能的變化規律及其非簡諧效應,從理論上進行深入的定量研究。突出了石墨烯材料的熱學和電學性能非簡諧效應在高蓄熱材料器件、新能源、新器件、微電子、太赫茲、新型環境回響材料等方面的套用。本書對石墨烯材料的研究和套用具有重要的理論和實際意義。
本書以理論研究為主,基礎理論有一定的深度和前沿性,系統性、邏輯性強,內容次序符合認知規律,突出了物理學科的學術特點,物理圖像清晰,物理思想明確,便於閱讀理解。可作為從事石墨烯材料研究和套用的研究人員和工程技術人員的參考書,也可作為材料、微電子等專業的教師、研究生的教學參考書。
目錄
目 錄
1 石墨烯材料簡介·································································· 001
1.1 石墨烯材料的起源及分類··············································· 001
1.1.1 石墨烯材料的起源················································ 001
1.1.2 石墨烯材料的分類················································ 004
1.2 石墨烯材料的基本性質·················································· 007
1.2.1 石墨烯的力學性質················································ 007
1.2.2 石墨烯的光學性質················································ 008
1.2.3 石墨烯的化學性質················································ 008
1.2.4 石墨烯的導電性··················································· 009
1.2.5 石墨烯的導熱性··················································· 010
1.2.6 石墨烯的阻隔性··················································· 010
1.3 石墨烯材料的製備方法簡介············································· 011
1.3.1 機械剝離法························································· 011
1.3.2 外延生長法························································ 013
1.3.3 氧化還原法························································ 014
1.3.4 溶劑熱法··························································· 019
1.3.5 有機合成法························································ 020
1.3.6 化學氣相沉積法··················································· 021
1.3.7 電弧放電法························································ 024
1.3.8 等離子增強合成法················································ 025
1.3.9 火焰法······························································ 027
參考文獻········································································· 029
...........
8.4 金屬基外延石墨烯熱電效應的奇異現象······························· 303
8.4.1 金屬塊體基外延石墨烯的熱電勢······························· 303
8.4.2 金屬薄膜基外延石墨烯的熱電勢······························· 304
8.4.3 聲子拖拽對外延石墨烯熱電勢的貢獻·························· 306
8.5 石墨烯熱電性能的套用·················································· 308
8.5.1 石墨烯熱電性能在新型環境回響材料上的套用·············· 308
8.5.2 石墨烯熱電性能在熱電器件上的套用·························· 313
8.5.3 石墨烯熱電性能在光電探測器上的套用······················· 315
參考文獻········································································· 317
附 錄················································································ 320
