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取向碳纳米管/高分子新型复合材料的制备及应用
  • ISSN号:0567-7351
  • 期刊名称:《化学学报》
  • 时间:0
  • 分类:O613.71[理学—无机化学;理学—化学]
  • 作者机构:[1]复旦大学聚合物分子工程国家重点实验室高分子科学系先进材料实验室,上海200438
  • 相关基金:国家自然科学基金(Nos.20904006,91027025); 科技部(Nos.2011CB932503,2011DFA51330); 教育部(NCET-09-0318); 上海市科委(Nos.1052nm01600,11520701400)资助~~
中文摘要:

碳纳米管/高分子复合材料已经被广泛研究,但长期以来存在一个共同而关键的挑战,即碳纳米管无规聚集,结构难以调控,性能无法满足应用需要.本工作提出了制备取向碳纳米管/高分子复合材料的一种新方法,获得块状、膜状、纤维状复合材料,制备的关键步骤是通过化学气相沉积法合成可纺的高质量碳纳米管阵列.该方法简单易行,具有较好的普适性.由于碳纳米管取向排列,复合材料具有优异的物理性能,如碳纳米管取向后复合材料的机械强度和导电率可分别提高一个和三个数量级.在此基础上,进一步探讨取向碳纳米管/高分子复合材料作为新型电极在有机太阳能电池中的应用.

英文摘要:

Carbon nanotube (CNT)/polymer composite materials have been widely studied for two decades. However, there remains a common and critical challenge, i.e., random dispersion of CNTs in polymer matrices, which has largely lowered their properties and limited their applications. Herein, we have developed a general method to prepare highly aligned CNT/polymer composite materials in formats of array, film, and fiber. The key procedure is to synthesize spinnable CNT arrays with high quality by a chemical vapor deposition process. Fe/A1203 was used as catalyst, ethylene was used as carbon source, a mixture gas of argon and hydrogen was used as carrying gas. The optimal growth conditions were summarized as below: thickness of 1.2 nm for Fe, thickness of 3 nm for A1203, flow rate of 400 standard cm3/min for argon, flow rate of 90 standard cm3/min for ethylene, flow rate of 30 standard cm3/min for hydrogen, growth temperature of 740 ~C, and growth time of 10 rain. Here the catalyst system was coated on silicon substrate by electron beam evaporation with rates of 0.5 and 2 A/s for Fe and A1203, respectively. To prepare CNT sheets or fibers, the spinnable array was first stabilized in a stage. A blade was then used to draw a ribbon out of the array. A CNT sheet would be obtained if the ribbon was directly pulled out without rotation, while a fiber should be produced if a rotary spinning was used. The spinning speed was about 15 cm/min. Mono- mer/polymer solutions or melts were directly coated onto the aligned CNT sheet or fiber to produce the aligned CNT/polymer film or fiber. Due to the high alignment of CNTs in polymer matrices, the resulting composite materials exhibited remarkable physical properties, e.g., the mechanical strength and electrical conductivity can be improved for one and three orders com- pared with the conventional solution blending method, respectively. These novel composite materials are promising for a wide variety of applications. The use of them as novel counter electrodes to fabricate dye-sensi

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期刊信息
  • 《化学学报》
  • 北大核心期刊(2014版)
  • 主管单位:中国科学院
  • 主办单位:中国化学会 中国科学院上海有机化学研究所
  • 主编:周其林
  • 地址:上海市零陵路345号
  • 邮编:200032
  • 邮箱:hxxb@sioc.ac.cn
  • 电话:021-54925085
  • 国际标准刊号:ISSN:0567-7351
  • 国内统一刊号:ISSN:31-1320/O6
  • 邮发代号:4-209
  • 获奖情况:
  • 首届国家期刊奖,第二届国家期刊奖提名奖,中国期刊方阵“双高期刊”
  • 国内外数据库收录:
  • 俄罗斯文摘杂志,美国化学文摘(网络版),荷兰文摘与引文数据库,美国科学引文索引(扩展库),日本日本科学技术振兴机构数据库,中国中国科技核心期刊,中国北大核心期刊(2004版),中国北大核心期刊(2008版),中国北大核心期刊(2011版),中国北大核心期刊(2014版),英国英国皇家化学学会文摘,中国北大核心期刊(2000版)
  • 被引量:28694