Fabrication of Organic Solvent Resistant Polyketone Hollow Fiber Membranes |
Park, Yeji
(MEMBRARE Co., Ltd.)
Jang, Wongi (Department of Chemical Engineering, Keimyung University) Choi, Jinwon (Department of Chemical Engineering, Keimyung University) Woo, Yunha (MEMBRARE Co., Ltd.) Hou, Jian (Department of Chemical Engineering, Keimyung University) Jeon, Sungil (MEMBRARE Co., Ltd.) Byun, Hongsik (Department of Chemical Engineering, Keimyung University) |
1 | S. H. Kim, K. S. Im, J. H. Kim, H. C. Koh, and S. Y. Nam, "Preparation and characterization of nanofiltration membrane for recycling alcoholic organic solvent", Membr. J., 31, 228-240 (2021). DOI |
2 | J. Hou, J. Yun, S. Jeon, K. Y. Chung, and H. Byun, "Preparation and fundamental characterization of EVOH hollow fiber membranes via thermally induced phase separation (TIPS)", Membr. J., 28, 395-405 (2018). DOI |
3 | S. Rajabzadeh, D. Ogawa, Y. Ohmukai, Z. Zhou, T. Ishigami, and H. Matsuyama, "Preparation of a PVDF hollow fiber blend membrane via thermally induced phase separation (TIPS) method using new synthesized zwitterionic copolymer", Desalination and Water Treat., 54, 2911-2919 (2015). DOI |
4 | C. Liu, R. Takagi, T. Shintani, L. Cheng, K-L. Tung, and H. Matsuyama, "Organic liquid mixture separation using an aliphatic polyketone-based organic solvent reverse osmosis (OSRO) membrane", ACS Appl. Mater. Interfaces, 12, 7586-7594 (2020). DOI |
5 | Y. C. Xu, X. Q. Cheng, J. Long, and L. Shao, "A novel monoamine modification strategy toward high-performance organic solvent nanofiltration (OSN) membrane for sustainable molecular separations", J. Membr. Sci., 497, 77-89 (2016). DOI |
6 | M. Park, J. Kim, M. Jang, and S. S. Kim, "Preparation of PVDF hollow fiber membrane via TIPS (Thermally Induced Phase Separation) and stretching", Membr. J., 24, 158-166 (2014). DOI |
7 | M. H. D. A. Farahani, and T-S. Chung, "Solvent resistant hollow fiber membranes comprising P84 polyimide and amine-functionalized carbon nanotubes with potential applications in pharmaceutical, food, and petrochemical industries", Chem. Eng. J., 345, 174-185 (2018). DOI |
8 | M. K. Jeong and S. Y. Nam, "Preparation and characterization of organic solvent-resistant polybenzimidazole membranes", Appl. Chem. Eng., 28, 420-426 (2017). DOI |
9 | I. B. Valtcheva, S. C. Kumbharkar, J. F. Kim, Y. Bhole, and A. G. Livingston, "Beyond polyimide: Crosslinked polybenzimidazole membranes for organic solvent nanofiltration (OSN) in harsh environments", J. Membr. Sci., 457, 62-72 (2014). DOI |
10 | S. Jeon, A. Nishitani, L. Cheng, L-F. Fang, N. Kato, T. Shintani, and H. Matsuyama, "One-step fabrication of polyamide 6 hollow fibre membrane using non-toxic diluents for organic solvent nanofiltration", RSC Adv., 8, 19879 (2018). DOI |
11 | J. Aburabie, P. Neelakanda, M. Karunakaran, and K-V. Peinemann, "Thin-film composite crosslinked polythiosemicarbazide membranes for organic solvent nanofiltration (OSN)", React. and Funct. Polym., 86, 225-232 (2015). DOI |
12 | H. Matsuyama, H. Okafuji, T. Maki, M. Teramoto, and N. Kubota, "Preparation of polyethylene hollow fiber membrane via thermally induced phase separation", J. Membr. Sci., 223, 119-126 (2003). DOI |
13 | H. Matsuyama, K. Ohga, T. Maki, M. Tearamoto, and S. Nakatsuka, "Porous cellulose acetate membrane prepared by thermally induced phase separation", J. Appl. Polym. Sci., 89, 3951-3955 (2003). DOI |
14 | X. Fu, T. Maruyama, T. Sotani, and H. Matsuyama, "Effect of surface morphology on membrane fouling by humic acid with the use of cellulose acetate butyrate hollow fiber membranes", J. Membr. Sci., 320, 483-491 (2008). DOI |
15 | L. Cheng, A. R. Shaikh, L-F. Fang, S. Jeon, C-J. Liu, L. Zhang, H-C. Wu, D-M. Wang, and H. Matsuyama, "Fouling-resistant and self-cleaning aliphatic polyketone membrane for sustainable oil-water emulsion separation", ACS Appl. Mater. Interfaces, 10, 44880-44889 (2018). DOI |
16 | G. B. A. Lim, S. S. Kim, Q. Ye, Y. F. Wang, and D. R. Lloyd, "Microporous membrane formation via thermally-induced phase separation. IV. Effect of isotactic polypropylene crystallization kinetics on membrane structure", J. Membr. Sci., 64, 31-40 (1991) DOI |
17 | D. R. Lloyd, S. S. Kim, and K. E. Kinzer, "Microporous membrane formation via thermally-induced phase separation. II. Liquid-liquid phase separation", J. Membr. Sci., 64, 1-11 (1991). DOI |
18 | C. Fang, S. Rajabzadeh, W. Liu, H-C. Wu, N. Kato, Y. Sun, S. Jeon, and H. Matsuyama, "Effect of mixed diluents during thermally induced phase separation process on structures and performances of hollow fiber membranes prepared using triple-orifice spinneret", J. Membr. Sci., 596, 117715 (2020). DOI |
19 | H. Karhanechi, S. Rajabzadeh, E. D. Nicolo, H. Usuda, A. R. Shaikh, and H. Matsuyama, "Preparation and characterization of ECTFE hollow fiber membranes via thermally induced phase separation (TIPS)", Polym., 97, 515-524 (2016). DOI |
20 | D. R. Lloyd, K. E. Kinzer, and H. S. Tseng, "Microporous membrane formation via thermally induced phase separation. I. Solid-liquid phase separ-ation", J. Membr. Sci., 52, 239-261 (1990). DOI |
21 | S. S. Kim and D. R. Lloyd, "Microporous membrane formation via thermally-induced phase separation. III. Effect of thermodynamic interactions on the structure of isotactic polypropylene membranes", J. Membr. Sci., 64, 13-29 (1991). DOI |
22 | S. Jeon, H. Karkhanechi, L-F. Fang, L. Cheng, T. Ono, R. Nakamura, and H. Matsuyama, "Novel preparation and fundamental characterization of polyamide 6 self-supporting hollow fiber membranes via thermally induced phase separation (TIPS)", J. Membr. Sci., 546, 1-14 (2018). DOI |