Carbon Nanotube Based Artificial Water Channel Protein: Membrane Perturbation and Water Transportation

Liu B; Li XY; Li BL; Xu BQ; Zhao YL

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Carbon Nanotube Based Artificial Water Channel Protein: Membrane Perturbation and Water Transportation

机译：碳纳米管为基础的人工水通道蛋白：膜扰动和水运输。

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We functionalized double-walled carbon nanotubes (DWCNTs) as artificial water channel proteins. For the first time, molecular dynamics simulations show that the bilayer structure of DWCNTs is advantageous for carbon nanotube based transmembrane channels. The shielding of the amphiphilic outer layer could guarantee biocompatibility of the synthetic channel and protect the inner tube (functional part) from disturbance of the membrane environment. This novel design could promote more sophisticated nanobiodevices which could function in a bioenvironment with high biocompatibility.

机译：我们功能化的双壁碳纳米管（DWCNTs）作为人造水通道蛋白。分子动力学模拟首次显示DWCNT的双层结构对于基于碳纳米管的跨膜通道是有利的。两亲性外层的屏蔽可以确保合成通道的生物相容性，并保护内管（功能部件）不受膜环境的干扰。这种新颖的设计可以促进更复杂的纳米生物设备的使用，这些设备可以在具有高生物相容性的生物环境中发挥作用。

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《Nano letters》 |2009年第4期|共9页
作者
Liu B; Li XY; Li BL; Xu BQ; Zhao YL;
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正文语种 eng
中图分类特种结构材料;
关键词
MOLECULAR-DYNAMICS SIMULATIONS; PROTON EXCLUSION; LIPID-BILAYERS; PERMEATION; AQUAPORIN-1; CONDUCTION; DIFFUSION; MECHANISM; CELLS; MODEL;

机译：分子动力学模拟;质子排除;脂类共渗;渗透;AQUAPORIN-1;导电;扩散;机理;细胞;模型;

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专利

1. Carbon Nanotube Based Artificial Water Channel Protein: Membrane Perturbation and Water Transportation [J] . Liu B, Li XY, Li BL, Nano letters . 2009,第4期

机译：碳纳米管为基础的人工水通道蛋白：膜扰动和水运输。
2. Control performance and biomembrane disturbance of carbon nanotube artificial water channels by nitrogen-doping [J] . Yang Y., Li X., Jiang J., ACS nano . 2010,第10期

机译：氮掺杂对碳纳米管人工水通道的控制性能和生物膜扰动
3. Ion-Responsive Channels of Zwitterion-Carbon Nanotube Membrane for Rapid Water Permeation and Ultrahigh Mono-/Multivalent Ion Selectivity [J] . Liu Tian-Yin, Yuan Hao-Ge, Li Qian, ACS nano . 2015,第7期

机译：两性离子-碳纳米管膜的离子响应通道，可实现快速的水渗透和超高的单价/多价离子选择性
4. Unleashing the potential of carbon-nanotubes for removing oil from water: Their deployment in pore channels of ceramic membrane [C] . X. Chen, L. Hong Euromembrane Conference . 2013

机译：释放碳纳米管用于从水中除去油的潜力：它们在陶瓷膜的孔通道中部署
5. Towards ion channel based nanofluidic devices: Simulations of water and electrolyte transport in nanotubes and channels. [D] . Joseph, Sony. 2008

机译：迈向基于离子通道的纳米流体设备：模拟水和电解质在纳米管和通道中的传输。
6. Water and Proton Conduction through Carbon Nanotubes as Models for Biological Channels [O] . Fangqiang Zhu, Klaus Schulten 2003

机译：通过碳纳米管的水和质子传导作为生物通道的模型
7. Transportation of silver nanopaticles in nanochannels of carbon nanotubes with supercritical water [O] . Chang JY 2011

机译：超临界水在碳纳米管纳米通道中传输银纳米颗粒
8. Determinations of N-Nitrosodimethylamine (NDMA) at part-per-trillion (ng/L) concentrations in contaminated groundwaters and drinking waters featuring carbon-based membrane extraction disks [R] . Tomkins, B. A., Griest, W. H., Connolly, G., 1996

机译：以碳基膜萃取盘为特征的受污染地下水和饮用水中亚硝基二甲胺（NDma）的浓度测定百万分之一（ng / L）

Carbon Nanotube Based Artificial Water Channel Protein: Membrane Perturbation and Water Transportation

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