References
- Drioli, E.; Romano, M. Reviews: progress and perspectives on integrated membrane operations for sustainable industrial growth. Ind. Eng. Chem. Res. 2001, 40, 1277.
- Matsuyama, H.; Berghmans, S.; Lloyd, D.R. Formation of anisotropic membranes via thermally induced phase separation. J. Mem. Sci. 1999, 40, 2289.
- Zheng, X.; Zhou,Y.F.; Chen, S.H.; Zheng, H.; Zhou,C.X. Survey of MBR market: trends and perspectives in China. Desalination. 2010, 250, 609.
- Wang, Z.W.; Wu, Z.C.; Mai, S.H.; Yang, C.F.; Wang, X.H.; An, Y.; Zhou, Z. Research and applications of membrane bioreactors in China: progress and prospect. Desalination. 2008, 62, 249.
- Bowen, W.R.; Cheng, S.Y.; Doneva, T.A.; Oatley, D.T. Manufacture and characterisation of polyetherimide/sulfonated poly(ether ether ketone) blend membranes. J. Membr. Sci. 2005, 250, 1.
- Hao, J.L.; Lei, G.T.; Li, Z.H.; Wu, L.J.; Xiao, Q.Z.; Wang, L. A novel polyethylene terephthalate nonwoven separator based on electrospinning technique for lithium ion battery. J. Membr. Sci. 2012, 428, 11.
- Caplan, M.R.; Chiang, C.Y.; Lloyd, D.R.; Yen, L.Y. Formation of microporous Teflon® PFA membranes via thermally induced phase separation. J. Membr. Sci. 1997, 130, 219.
- Stellato, S.; Portaccio, M.; Rossi, S.; Bencivenga, U.; Sala, G.L.; Mazza, G.; Gaeta, F.S.; Mita, D.G. A novel bioreactor operating under non-isothermal conditions. J.Membr. Sci. 1997, 129, 175.
- Yoneda, H.; Nishimura, Y.; Doi, Y.; Fukuda, M.; Kohno, M. Development of microporous PE films to improve lithium ion batteries. Polym. J. 2010, 42, 425.
- Tabatabaei, S.H.; Carreau, P.J.; Ajji, A. Microporous membranes obtained from polypropylene blend films by stretching. J. Membr. Sci. 2008, 325, 772.
- Tabatabaei, S.H.; Carreau, P.J.; Ajji, A. Microporous membranes obtained from PP/HDPE multilayer films by stretching. J. Membr. Sci. 2009, 345, 148.
- Vaorbach, D.; Schulze, T.T.E. Thermostable hollow membranes for separation processes. Chem. Fibers. Int. 1999, 49, 133.
- Ding, H.Y.; Zeng, Y.M.; Meng, X.F.; Tian, Y.; Shi, Y.Q.; Jiao, Q.Z.; Zhang, S.M. Porous polyphenylene sulfide membrane with high durability against solvents by the thermally induced phase separation method. J. Appl. Polym. Sci. 2006, 102, 2959.
- Ding, H.Y.; Zhang, Q.; Tian, Y.; Shi, Y.Q.; Liu, B.Q. Preparation of porous structure in the system of PEEK/PPS/Diphenylene Ketone via thermally induced phase separation. J. Appl. Polym. Sci. 2007, 104, 1523.
- Castro, A.J. U.S. Pat. 4,247,498 [P] 1981-1-27.
- Lloyd, D.R.; Kinzer, K.E.; Tseng, H.S. Microporous membrane formation via thermally induced phase separation. I. Solid-liquid phase separation. J. Membr. Sci. 1990, 52, 239.
- Lloyd, D.R.; Kim, S.S.; Kinzer, K.E. Microporous membrane formation via thermally induced phase separation. II. Liquid-liquid phase separation. J. Membr. Sci. 1991, 64, 1.
- Kim, S.S.; Lloyd, D.R. Microporous membrane formation via thermally-induced phase separation. III. Effect of thermodynamic interactions on the structure of isotactic polypropylene membranes. J. Membr. Sci. 1991, 64, 13.
- Lim, G.B.A.; Kim, S.S.;Ye, Q.H.; Wang, Y.F.; Lloyd, D.R. Microporous membrane formation via thermally-induced phase separation. IV. Effect of isotactic polypropylene crystallization kinetics on membrane structure. J. Membr. Sci. 1991, 64, 31.
- Kim, S.S.; Lim, G.B.A.; Alwattari, A.A.; Wang, Y.Y.; Lloyd, D.R. Microporous membrane formation via thermally-induced phase separation. V. Effect of diluent mobility and crystallization on the structure of isotactic polypropylene membranes. J. Membr. Sci. 1991, 64, 41.
- Alwattari, A.A.; Lloyd, D.R. Microporous membrane formation via thermally-induced phase separation. VI. Effect of diluent morphology and relative crystallization kinetics on polypropylene membrane structure. J. Membr. Sci. 1991, 64, 55.
- Flory, P.J. Principles of Polymer Chemistry; Cornell University Press: New York, 1953, Chap. 13.
- Tanaka, H. Viscoelastic phase separation. J. Phys.: Condens. Matter. 2000, 12, 207.
- Zheng, H.; Yu, W.; Zhou, C.X. Poly(Phenylene Sulfide) microporous membrane via the thermally induced phase separation method. Acta. Polym. Sinica. 2013, 3, 365.