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碳纳米管纤维领域文献的关键研究路径分析 被引量:1

Key Research Path Analysis on Literature of Carbon Nanotube Fiber
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摘要 碳纳米管纤维具有极好的力学、热学和电学特征,是近年来纳米材料研究领域内的热点方向,具有广泛的应用前景。该文运用基于引文内容的学科领域关键研究路径分析方法,以碳纳米管纤维领域发表的SCI研究论文为研究对象,通过演化阶段、演化路径以及演化内容的分析,揭示该领域的发展态势和演化情况。 Carbon nanotube fibers have excellent mechanical, thermal and electrical characteristics, which has been a hot research direction in the field of nano-materials with a wide range of applications in recent years. The paper analyzes SCI research articles of carbon nanotube fibers using key research path analysis method of disciplines and fields based on citation content, which reveals the development trend and evolution situation of the field by analysis of evolution stage, evolutionary path and evolution content.
作者 冷伏海 祝清松
机构地区 中国科学院文献情报中心
出处 《科学观察》 2014年第6期1-10,共10页 Science Focus
关键词 碳纳米管纤维 关键研究路径 引文内容分析 carbon nanotube fibers, key research path, citation content analyses
分类号 TQ342.74 [化学工程—化纤工业] G252.7 [文化科学—图书馆学]
  • 相关文献

参考文献13

  • 1lijima S. Helical microtubules of graphitic carbon. Nature, 1991,354(6348):56-58.
  • 2孟凡成,周振平,李清文.碳纳米管纤维研究进展[J].材料导报,2010,24(17):38-43. 被引量:13
  • 3Lu W, Zu M, Byun Joon-Hyung, et al. State of the Art of Carbon Nanotube Fibers: Opportunities and Challenges. Advanced Materials, 2012(24): 1805-1833.
  • 4Meador MA, Files B, Li J, et al. Draft Nanotechnology Roadmap Technology Area I 0. [2011 - 11-6]. http://www.nasa. gov/pdf/501325main TA 10-Nanotech-DRAFT-Nov2010-A.pdf.
  • 5中国航天科技信息网.美国国家研究理事会公布《NASA空间技术路线图与优先事项》.[2013-8-19].http://www.cssar.ac.cn/kxcb/kpwz/qysm/201202/t20120206_3434829.html.
  • 6清华新闻网.清华魏飞教授团队制备出世界最长碳纳米管.[2013 - 12-9]. http://news.tsinghua.edu.cn/publish/news/4205/2013/ 20130716141023548659357/20130716141023548659357 .html.
  • 7中国科学院.苏州纳米所碳纳米管纤维研究取得新进展.[2013-12-9].http://www.cas.cn/ky/kyjz/201012/t20101216-3045418.shtml.
  • 8百度百科.超级纤维.[2013-12-9].http://baike.baidu.com/view/10627591.htm.
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  • 10Small H. Citation context analysis. B. Dervin and M. Voigt (Eds.), Progress in communication sciences 3, 1982:287-310.

二级参考文献46

  • 1Iijima S. Helical microtubules of graphitie carbon[J]. Nature, 1991,354(6348) : 56.
  • 2Peng B, Locascio M, Espinosa H D, et al. Measurements of near-ultimate strength for multiwalled carbon nanotubes and irradiation-induced crosslinking improvements [J]. Nature Nanotechn, 2008,3 (10):626.
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  • 6Ogata S, Shibutani Y. Ideal tensile strength and band gap of single-walled carbon nanotubes [J]. Phys Rev B, 2003,68,165409.
  • 7Natsuki T, Endo M. Stress simulation of carbon nanotubes in tension and compression [J]. Carbon, 2004,42 (11) : 2147.
  • 8Pham G T, Park Y B, Kramer L, et al. Mechanical and electrical properties of polyCarbonate nanotube buckypaper composite sheets [J].Nanotechnology, 2008,19,325705.
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  • 10Ericson L M, Fan H, Smalley R E, et al. Macroscopic, neat, single-walled carbon nanotube fibers [J]. Science, 2004,305(5689) :1447.

共引文献12

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二级引证文献3

科学观察
2014年 第6期

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