2014, Volume 16, Issue 12
Strategic Study of CAE >> 2014, Volume 16, Issue 12
Innovations of membrane science and technology in China
1. Membrane Science & Technology Research Center,State Key Laboratory of Materials-Oriented Chemical Engineering,Nanjing University of Technology,Nanjing 210009,China;
2. The Development Center of Water Treatment Technology,Hangzhou 310012,China
Next Previous
Abstract
Membrane technology could realize molecular-level separation with low cost and high efficiency, which has become a generic technology for solving the big challenges that the mankind faces such as resources and environmental problems. A growing number of countries have paid significant attention to development of membrane technology. In recent years, with the great support from government and continuous R & D efforts, China has made a considerable progress in membrane science and technology. This paper will give a historical review of membrane technology in China. Recent 10-year innovations in fields of water treatment membranes, pervaporation membranes, gas separation membranes, ion exchange membranes, inorganic membranes, membrane reactors, novel membranes will be shown based on the fundamental study and industrial implementation of membrane design, preparation and application. And futuredevelopment directions and goals of the membrane science and technology in China are prospected.
Keywords
References
[ 1 ] 朱秀昌. 离子交换树脂膜及其应用Ⅰ.离子交换树脂膜[J]. 化学 通报,1958(10):606-609. link1
[ 2 ] 徐又一,王建宇,刘 富,等. 一种亲水性聚氯乙烯合金超滤 膜的制备方法[P]. 中国发明专利:CN200810062570.8.
[ 3 ] Lin Yakai,Tang Yuanhui,Ma Hengyu,et al. Formation of a Bicontinuous structure membrane of polyvinylidene Fluoride in dipheny carbonate diluent via thermally induced phase separation [J]. Journal of Applied Polymer science,2009,114 (3):1523- 1528. link1
[ 4 ] Wang Cang,Wu Jian,Xu Zhikang. High- density glycosylation of polymer membrane surfaces by click chemistry for carbohydrate-protein recognition [J]. acromol Rapid Commun. 2010,31 (12):1078-1082. link1
[ 5 ] Yang Yunfeng,Hu Hanqiong,Li Yang,et al. Membrane surface with antibacterial property by grafting polycation [J]. Journal Membrane Science,2011,376(1-2):132-141. link1
[ 6 ] Wang Cang,Ren Pengfei,Huang Xiaojun,et al. Surface glycosylation of polymer membrane by thiol- yne click chemistry for affinity adsorption of lectin [J]. Chem Commun,2011,47(13): 3930-3932. link1
[ 7 ] Zhao Yonghong ,Zhu Baoku ,Li Kong ,et al.Improving hydrophilicity and protein resistance of poly(vinylidene fluoride) membranes by blending with amphiphilic hyperbranched-star polymer [J]. Langmuir,2007,23(10):5779-5786. link1
[ 8 ] Li Jianhua,Xu Youyi,Zhu Liping,et al. Fabrication and characterization of a novel TiO2 nanoparticle self-assembly membrane with improved fouling resistance [J]. Journal Membrane Science,2009,326(2):659-666. link1
[ 9 ] Jurgen Gmehling,Jurgen Lohmann,Antje Jakob,et al. A modified UNIFAC (Dortmund) model. 3. Revision and extension[J]. Industrial & Engineering Chemistry Research,1998,37(12): 4876-4882. link1
[10] Yu Xingwei,Wang Zhi,Wei Zhihong,et al. Novel tertiary amino containing thin film composite membranes prepared by interfacial polymerization for CO2 capture [J]. Journal Membrane Science,2010,362(1-2):265-278. link1
[11] Li Shichun,Wang Zhi,Yu Xingwei,et al.High- performance membranes with multi- permselectivity for CO2 separation [J]. Advanced Materials,2012,24(24):3196-3200. link1
[12] Wang Mingming,Wang Zhi,Wang Jixiao,et al.An antioxidative composite membrane with the carboxylate group as a fixed carrier for CO2 separation from flue gas [J]. Energy Environ Science & Environmental Science,2011,4(10):3955-3959. link1
[13] Dong Xueliang,Jin Wanqin,Xu Nanping ,et al. Dense ceramic catalytic membranes and membrane reactors for energy and environmental applications [J]. Chemical Communications, 2011,47(39):10886-10902. link1
[14] Chu Liangyin,Li Yan,Zhu Jiahua,et al. Negatively thermoresponsive membranes with functional gates driven by zippertype hydrogen-bonding interactions [J]. Angewandte Chemie International Edition,2005,44(14):2124-2127. link1
[15] Qu Jianbo,Chu Liangyin,Yang Mei,et al. A pH- responsive gating membrane system with pumping effects for improved controlled release [J]. Advanced Functional Materials,2006,16 (14):1865-1872. link1
[16] Yang Mei,Chu Liangyin,Wang Haidong,et al. A thermoresponsive membrane for chiral resolution [J]. Advanced Functional Materials,2008,18(4):652-663. link1
[17] Liu Zhuang,Luo Feng,Ju Xiaojie,et al. Positively K+-responsive membranes with functional gates driven by host-guest molecular recognition [J]. Advanced Functional Materials,2012, 22(22):4742-4750. link1
[18] Wang Yong,He Changcheng,Xing Weihong ,et al. Nanoporous metal membranes with bicontinuous morphology from recyclable block- copolymer templates [J]. Advanced Materials, 2010,22(18):2068-2072. link1
[19] Wang Yong,Li Fengbin. An emerging pore- making strategy: confined swelling-induced pore generation in block copolymer materials [J]. Advanced Materials,2011,23(19):2134-2148. link1
[20] Yang Zhiming,Wang Zhaogen,Yao Xueping,et al. Responsive,fluorescent micellar nanospheres of amphiphilic block copolymers for the characterization of membrane pores [J]. Journal Membrane Science,2013,441:9-17. link1
[21] Guo Hailing,Zhu Guangshan,Ian J. Hewitt,et al.“Twin Copper Source”growth of metal − organic framework membrane: Cu3(BTC)2 with high permeability and selectivity for recycling H2 [J]. Journal of the American Chemical Society,2009,131 (5):1646-1647. link1
[22] Liu Xinlei,Li Yanshuo,Zhu Guangqi,et al. An organophilic pervaporation membrane derived from metal- organic framework nanoparticles for efficient recovery of bio-alcohols [J]. Angewandte Chemie International Edition,2011,50(45):10636- 10639. link1
[23] Hu Yaoxin,Dong Xueliang,Nan Jiangpu,et al. Metal- organic framework membranes fabricated via reactive seeding [J]. Chemical Communications,2011,47(2):737-739. link1
[24] Wang Wenjin,Dong Xueliang,Nan Jiangpu,et al. A homochiral metal-organic framework membrane for enantioselective separation [J]. Chemical Communications,2012,48(56):7022- 7024. link1
[25] Huang Kang,Liu Gongping,Lou Yueyun,et al. A graphene oxide membrane with highly selective molecular separation of aqueous organic solution [J]. Angewandte Chemie International Edition,2014,53(27):6929-6932. link1
京公网安备 11010502051620号
