[ 1 ] Shannon M A，Bohn P W，Elimelech M，et al. Science and technology for water purification in the coming decades[J]. Nature， 2008，452(7185)：301-310. 链接1

[ 2 ] Bencharit S. History of progress and challenges in structural biology[J]. J Pharmacogenom Pharmacoproteomics S，2012，4： 2153-0645. 链接1

[ 3 ] Bowen W R. Biomimetic separations—learning from the early development of biological membranes[J]. Desalination，2006，199 (1)：225-227. 链接1

[ 4 ] Kumar M，Grzelakowski M，Zilles J，et al. Highly permeable polymeric membranes based on the incorporation of the functional water channel protein Aquaporin Z[J]. Proceedings of the National Academy of Sciences，2007，104(52)：20719-20724. 链接1

[ 5 ] Singer S J，Nicolson G L. The fluid mosaic model of the structure of cell membranes[J]. Science，1972，175(23)：720-731. 链接1

[ 6 ] Robertson J D. The ultrastructure of cell membranes and their derivatives[C]//Biochemical Society Symposium，1958，16：3-43. 链接1

[ 7 ] 徐国恒. 细胞膜的双层磷脂结构与功能术[J]. 生物学通报， 2006，4(9)：11-14. 链接1

[ 8 ] 马文宝，张立志. 仿生膜的研究进展[J]. 化工进展，2008，26 (11)：1538-1545. 链接1

[ 9 ] 王 晶，桑建利. 水通道蛋白的基本结构与特异性通透机理 [J]. 生物学通报，2011，2：19-21. 链接1

[10] 才丽平，赵金茹，林庶茹，等. 水通道蛋白研究进展[J]. 解剖科 学进展，2003，9(2)：167-170. 链接1

[11] Jung J S，Preston G M，Smith B L，et al. Molecular structure of the water channel through aquaporin CHIP. The hourglass model[J]. Journal of Biological Chemistry，1994，269(20)： 14648-14654. 链接1

[12] Kumar M，Payne M M，Poust S K，et al. Biomimetic Membranes for Sensor and Separation Applications [M]. New York: Springer，2012:43-62.

[13] Taubert A，Napoli A，Meier W. Self-assembly of reactive amphiphilic block copolymers as mimetics for biological membranes[J]. Current Opinion in Chemical Biology，2004，8(6)： 598-603. 链接1

[14] Zhang X，Tanner P，Graff A，et al. Mimicking the cell membrane with block copolymer membranes[J]. Journal of Polymer Science Part A：Polymer Chemistry，2012，50(12)：2293- 2318. 链接1

[15] Lee J C M，Bermudez H，Discher B M，et al. Preparation，stability，and in vitro performance of vesicles made with diblock copolymers[J]. Biotechnology and Bioengineering，2001，73 (2)：135-145. 链接1

[16] Rosoff M. Vesicles，Surfactant Science Series Volumer 62， Chap 9，Needham D，Zhelev D V.The Mechanochemistry of Lipid Vesicles Examined by Micropipette Manipulation Techniques in Vesicles[M]. New York: Marcel Dekker，Inc.，1996: 373-444.

[17] Konradi R，Pidhatika B，Mühlebach A，et al. Poly-2-methyl- 2-oxazoline：A peptide-like polymer for protein- repellent surfaces[J]. Langmuir，2008，24(3)：613-616. 链接1

[18] Nardin C，Meier W. Hybrid materials from amphiphilic block copolymers and membrane proteins[J]. Reviews in Molecular Biotechnology，2002，90(1)：17-26. 链接1

[19] Graff A，Fraysse Ailhas C，Palivan C G，et al. Amphiphilic copolymer membranes promote NADH：Ubiquinone oxidoreductase activity：Towards an electron transfer nanodevice[J]. Macromolecular Chemistry and Physics，2010，211(2)：229-238. 链接1

[20] Borgnia M J，Kozono D，Calamita G，et al. Functional reconstitution and characterization of AqpZ，the< i> E. coli water channel protein[J]. Journal of Molecular Biology，1999，291 (5)：1169-1179. 链接1

[21] Wang H，Chung T S，Tong Y W，et al. Highly Permeable and selective pore spanning biomimetic membrane embedded with aquaporin Z[J]. Small，2012，8(8)：1185-1190. 链接1

[22] Zhong P S，Chung T S，Jeyaseelan K，et al. Aquaporin-embedded biomimetic membranes for nanofiltration[J]. Journal of Membrane Science，2012，407：27-33. 链接1

[23] Sun G，Chung T S，Chen N，et al. Highly permeable aquaporin-embedded biomimetic membranes featuring a magnetic-aided approach[J]. RSC Advances，2013，3(24)：9178-9184. 链接1

[24] Zhao Y，Qiu C，Li X，et al. Synthesis of robust and high-performance aquaporin- based biomimetic membranes by interfacial polymerization-membrane preparation and RO performance characterization[J]. Journal of Membrane Science，2012，423： 422-428. 链接1

[25] Barboiu M，Gilles A. From natural to bioassisted and biomimetic artificial water channel systems[J]. Accounts of Chemical Research，2013，46(12)：2814-2823. 链接1

[26] Wang J，Zhu Y，Zhou J，et al. Diameter and helicity effects on static properties of water molecules confined in carbon nanotubes[J]. Physical Chemistry Chemical Physics，2004，6(4)： 829-835. 链接1

[27] Hummer G，Rasaiah J C，Noworyta J P. Water conduction through the hydrophobic channel of a carbon nanotube[J]. Nature，2001，414(6860)：188-190. 链接1

[28] Konduri S，Tong H M，Chempath S，et al. Water in single— walled aluminosilieate nanotubes：Diffusion and adsorption Properties[J]. The Journal of Physical Chemistry C，2008，112： 15367-15374. 链接1

[29] Sokhan V P，Nieholson D，Quirke N. Fluid flow in nanoPores： Aeeurate boundary conditions for carbon nanotubes [J].The Journal of Chemical Physics，2002，117：8531-8539. 链接1

[30] Liu Y，Wang Q，Zhang L，et al. Dynamics and density profile of water in nanotubes as one—dimensional fluid [J]. Langmuir， 2005，21：12025-12030. 链接1

[31] Deng J ，Zhang X，Wang K，et al. Synthesis and properties of poly(ether urethane) membranes filled with isophorone diisoeyanate—grafted carbon nanotubes[J]. Journal Membranes Science，2007，288：261-266. 链接1

[32] KalaPPa P，Lee J H，Rashmi J，et al. Effeet of Polyaniline funetionalized carbon nanotubes addition on the Positive temperature coeffieient behavior of carbon black/high—density polyethylene nanocomposites[J]. IEEETrans. Nanoteelmol.，2008，7： 223-228. 链接1

[33] Jeon I Y，Lee H J，ChoiY S，et al. Semimetallic transport in nanoeornposites derived from grafting of linear and hyperbranehed poly(phenylenesulfide)s onto the surface of functionalized multi—walled carbon nanotubes [J]. Macromoleeules，2008， 41：7423-7432. 链接1

[34] Zou W，Du Z J，Liu Y X，et al. Funetionalization of MWNTs using polyaeryloyl chloride and the properties of CNT- epoxy matrix nanocomposites[J]. Composites Science and Technology，2008，68：3259-3264. 链接1

[35] Zhao H，Qiu S，Wu L，et al. Improving the performance of polyamide reverse osmosis membrane by incorporation of modified multi- walled carbon nanotubes[J]. Journal of Membrane Science，2014，450：249-256. 链接1

[36] Chen W，Tao X. Self-organizinga lignment of carbon nanotubes in thermoplastic polyurethane [J]. Macromolecual Rapid Communications，2005，26：1763-1767. 链接1

[37] Hinds B J，ChoPra N，Rantell T，et al. Aligned multiwalled carbon nanotube membranes[J].Seience，2004，303：62-65.

[38] Zhao H，Zhou Z，Dong H，et al. A facile method to align carbon nanotubes on polymeric membrane substrate [J].Scientific Reports，2013，3：34-80. 链接1

[39] Fei Z，Zhao D，Geldbach T J，et al. A Synthetic zwitterionic water channel：Characterization in the solid state by X-ray crystallography and NMR spectroscopy[J]. Angewandte Chemie， 2005，117(35)：5866-5871. 链接1

[40] Kaucher M S，Peterca M，Dulcey A E，et al. Selective transport of water mediated by porous dendritic dipeptides[J]. Journal of the American Chemical Society，2007，129(38)：11698- 11699. 链接1

[41] Le Duc Y，Michau M，Gilles A，et al. Imidazole-quartet water and proton dipolar channels[J]. Angewandte Chemie，2011， 123(48)：11568-11574.

[42] Hu X B，Chen Z，Tang G，et al. Single- molecular artificial transmembrane water channels[J]. Journal of the American Chemical Society，2012，134(20)：8384-8387. 链接1

[43] Zhou X，Liu G，Yamato K，et al. Self-assembling subnanometer pores with unusual mass-transport properties[J]. Nature Communications，2012，3：949. 链接1