Study on a Separator for the All-vanadium Redox Flow Battery
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Lee, Sang-Ho
(Div. Energy Efficiency & Materials Convergence Research, KIER)
Kim, Joeng-Geun (Div. Energy Efficiency & Materials Convergence Research, KIER) Choi, Sang-Il (Div. Energy Efficiency & Materials Convergence Research, KIER) Hwang, Gab-Jin (Div. Energy Efficiency & Materials Convergence Research, KIER) Jin, Chang-Soo (Div. Energy Efficiency & Materials Convergence Research, KIER) |
1 | T. Horie, Y. Ishida, and H. Fujioka, 'New Trends in Power Storage Systems', NTT Building Technology Institute, 기술보고서 (2004) |
2 | G.-J. Hwang and H. Ohya, 'Preparation of cation exchange membrane as a separator for the all-vanadium redox flow battery', J. Membr. Sci., 120, 55 (1996) DOI ScienceOn |
3 | G.-J. Hwang and H. Ohya, ' Preparation of anion exchange membrane based on block copolymers Part 1 ; Amination of the chloromethylated copolymers', J. Membr. Sci., 140, 195 (1998) DOI ScienceOn |
4 | 천훈상, 오민, 홍성욱, 'polysulfone/SPEEK 블렌드 고분자 전해질 막 제조 및 특성 연구', 멤브레인, 13(1), 47 (2003) |
5 | 최승락, 박소진, 서범경, 이근우, 남석태, 한명진, '폴리설폰 상전환막의 제조에 있어 프로피오닉산 첨가제의 영향' 멤브레인' 18(4), 317 (2008) 과학기술학회마을 |
6 | G.-J. Hwang, H. Ohya, and T. Nagai, 'Ion exchange membrane based on block copolymer Part III. preparation of cation exchange membrane', J. Membr. Sci., 156, 61 (1999) DOI ScienceOn |
7 | 황갑진, 강안수, 大失晴彦, '레독스-흐름 2차전지에 관한 연구동향', 화학공업기술, 16(5), 455 (1998) |
8 | J. Giner and K. Cahill, 'Advanced screening of electrode couples', NASA CR-159738 (1980) |
9 | L. H. Thaller, 'Electrically rechargeable redox flow cells', NASA TM X-71540 (1974) |
10 | M. Skyllas-kazacos, D. Kasherman, D. R. Hong, and M. Kazacos, 'Characteristics and performance of 1 kW UNSW vanadium redox battery', J. Power Sources, 35, 399 (1991) DOI ScienceOn |
11 | H. Tasai, T. Horigome, N. Nozaki, H. Kaneko, A. Negishi, and Y. Wada, ' Characteristics of vanadium redox cel1', 31回 電池討論公演會 要旨集, Japan, p.301 (1990) |
12 | F. Grossmith, P. Llewellyn, A. G. Fane, and M. Skyllas-kazacos, ' Evaluation of membranes for allvanadium redox cell', Proc. Electrochem. Soc. Symp., Honolulu, Oct., p.363 (1988) |
13 | 김득주, 황해영, 김형준, 남상용, '연료전지 전해질 복합막 제조를 위한 폴리설폰계 지지체의 제조와 물성. 멤브레인 19(1), 63 (2009) 과학기술학회마을 |
14 | I. Terada, H. Horie, Y. Sugaya, and H. Miyake, '산 회수를 위한 새로운 이온교환막'. 고분자화학 40(8), 38 (1991) |
15 | M. Skyllas-kazacos and F. Grossmith, ' Efficient vanadium redox flow barttery', J. Electrochem. Soc., 134(12), 2950 (1987) DOI ScienceOn |
16 | P. R. Prokopius, ' Model for calculating electrolyte shunt path losses in large electrochemical energy conversion systems', NASA TM X-3359 (1980) |
17 | G.-J. Hwang and H. Ohya, 'Preparation of anion exchange membrane based on block copolymers Part II; The effect of the formation of macroreticular structure on the membrane properties', J. Membr. Sci. , 149, 163 (1998) DOI ScienceOn |
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