中国科学院机构知识库网格
Chinese Academy of Sciences Institutional Repositories Grid
Bio-Inspired Aggregation Control of Carbon Nanotubes for Ultra-Strong Composites

文献类型:期刊论文

作者Han, Y; Zhang, XH(张骁华); Yu, XP(余雪平); Zhao, JN(赵静娜); Li, S; Liu, F; Gao, P; Zhang, YY(张永毅); Zhao, T; Li, QW(李清文)
刊名SCIENTIFIC REPORTS
出版日期2015
卷号5页码:9
通讯作者Zhang, XH (郑新河)
英文摘要High performance nanocomposites require well dispersion and high alignment of the nanometer-sized components, at a high mass or volume fraction as well. However, the road towards such composite structure is severely hindered due to the easy aggregation of these nanometer-sized components. Here we demonstrate a big step to approach the ideal composite structure for carbon nanotube (CNT) where all the CNTs were highly packed, aligned, and unaggregated, with the impregnated polymers acting as interfacial adhesions and mortars to build up the composite structure. The strategy was based on a bio-inspired aggregation control to limit the CNT aggregation to be sub 20-50 nm, a dimension determined by the CNT growth. After being stretched with full structural relaxation in a multi-step way, the CNT/polymer (bismaleimide) composite yielded super-high tensile strengths up to 6.27-6.94 GPa, more than 100% higher than those of carbon fiber/epoxy composites, and toughnesses up to 117-192 MPa. We anticipate that the present study can be generalized for developing multifunctional and smart nanocomposites where all the surfaces of nanometer-sized components can take part in shear transfer of mechanical, thermal, and electrical signals.
收录类别SCI
语种英语
公开日期2016-05-03
源URL[http://ir.sinano.ac.cn/handle/332007/3351]  
专题苏州纳米技术与纳米仿生研究所_先进材料研究部_李清文团队
推荐引用方式
GB/T 7714
Han, Y,Zhang, XH,Yu, XP,et al. Bio-Inspired Aggregation Control of Carbon Nanotubes for Ultra-Strong Composites[J]. SCIENTIFIC REPORTS,2015,5:9.
APA Han, Y.,Zhang, XH.,Yu, XP.,Zhao, JN.,Li, S.,...&Li, QW.(2015).Bio-Inspired Aggregation Control of Carbon Nanotubes for Ultra-Strong Composites.SCIENTIFIC REPORTS,5,9.
MLA Han, Y,et al."Bio-Inspired Aggregation Control of Carbon Nanotubes for Ultra-Strong Composites".SCIENTIFIC REPORTS 5(2015):9.

入库方式: OAI收割

来源:苏州纳米技术与纳米仿生研究所

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