1 |
H. Choi, G. Hwang, J. Kim, and C. Ryu, "Study on Current Collector for All Vanadium Redox Flow Battery", KHNES, Vol. 22, 2011, p. 240.
|
2 |
K. L. Huang, X. G. Li, S. Q. Liu, N. Tan, and L. Q. Chen, "Research progress of vanadium redox flow battery for energy storage system in China", Renewable Energy, Vol. 33, 2008, p. 186.
DOI
|
3 |
K. J. Kim, M. S. Park, J. H. Kim, U. Hwang, N. J. Lee, G. J. Jeong, and Y. J. Kim, "Novel catalytic effects of for all vanadium redox flow batteries", Chemical Comm., Vol. 48, 2012, p. 5455.
DOI
|
4 |
C. Ponce de Leon, A. Frias-Ferrer, J. Gonzalez-Garcia, D. A. Szanto, and F. C. Walsh, "Redox flow cells for energy conversion", Journal of Power Sources, Vol. 160, 2006, p. 716.
DOI
ScienceOn
|
5 |
S. Jeong, S. Kim, and Y. Kwon, "Performance enhancement in vanadium redox flow battery using platinum-based electrocatalyst synthesized by polyol process", Electrochimica Acta, Vol. 114, 2013, p. 439.
DOI
|
6 |
S. Jeong, S. An, J. Jeong, J. Lee, and Y. Kwon, "Effect of mesocellular carbon foam electrode material on performance of vanadium redox flow battery", Journal of Power Sources, Vol. 278, 2015, p. 245.
DOI
|
7 |
M. Rychick, and M. S. Kazacos, "Evauation of Electrode Materials for Vanadium Redox Cell", J. Power Sources, Vol. 19, 1987, p. 45.
DOI
|
8 |
M. S. Kazacos, M. Cheng, and M. Kazacos, "Vanadium Redox Cell Electrolyte Optimization Studies", J. Appl. Electrochem, Vol. 20, 1990, p. 463.
DOI
|
9 |
M. S. Kazacos, M. Cheng, and M. Kazacos, "Vanadium Redox Cell Electrolyte Optimization Studies", Hydrogen and Human Life, Hydrogenpress, Korea, 2002, p. 105.
|
10 |
B. Yin, Z. Li, W. Dai, L. Wang, L. Yu, and J. Xi, "Highly branched sulfonated poly(fluorenyl ether ketone sulfone)s membrane for energy efficient vanadium redox flow battery", Journal of Power Sources, Vol. 285, 2015, p. 109.
DOI
|
11 |
J. Li, Y. Zhang, S. Zhang, and X. Huang, "Sulfonated polyimide/s- composite membrane with high proton selectivity and good stability for vanadium redox flow battery", Journal of Membrane Science, Vol. 490, 2015, p. 179.
DOI
|
12 |
C. Minke, and T. Turek "Economics of vanadium redox flow battery membranes", Journal of Power Sources, Vol. 286, 2015, p. 247.
DOI
|
13 |
E. A. Hogge, and M. B. Kraichman, "The Limiting Current on a Rotating Disc Electrode in Potassium Iodide-Potassium Triiodide Solutions", J. Am. Chem. Soc., Vol. 76, No. 5, 1954, p. 1431.
DOI
|
14 |
H. Choi, G. Hwang, J. Kim, and C. Ryu, "Electrochemical Oxidation of Carbon Felt for Redox Flow Battery", KHNES, Vol. 22, 2011, p. 721.
|
15 |
C. Chu, S. Jeong, J. Jeong, S. Chun, J. Lee, and Y. Kwon, "A Study on The Effects of Three Different Carbon Catalysts on Performance of Vanadium Redox Flow Battery", KHNES, Vol. 26, 2015, p. 170.
|
16 |
H. Zhu, Y. Zhang, L. Yue, W. Li, G. Li, D. Shu, and H. Chen, "Graphite-carbon nanotube composite electrodes for all vanadium redox flow battery", J. Power Sources, 184, 2008, p. 637.
DOI
|
17 |
A. Bard, and L. R. Faulkner, "Electrochemical methods", (2nd Edi.), Wiley, USA, 2000, pp. 140-145.
|