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10 References 99. Sun, B. and M. Skyllas-Kazakos, Chemical modification and electrochemical behaviour of graphite fibre in acidic vanadium solution. Electrochimica Acta, 1991. 36(3): p. 513-517. 100. Xiang, Y. and W.A. Daoud, Electrochemical enhancement of carbon paper by indium modification for the positive side of vanadium redox flow battery. Journal of The Electrochemical Society, 2017. 164(9): p. A2256. 101. Suárez, D.J., et al., Graphite felt modified with bismuth nanoparticles as negative electrode in a vanadium redox flow battery. ChemSusChem, 2014. 7(3): p. 914-918. 102. Liu, T., et al., Investigation on the effect of catalyst on the electrochemical performance of carbon felt and graphite felt for vanadium flow batteries. Journal of Power Sources, 2015. 286: p. 73-81. 103. González, Z., et al., Enhanced performance of a Bi-modified graphite felt as the positive electrode of a vanadium redox flow battery. Electrochemistry Communications, 2011. 13(12): p. 1379-1382. 104. Li, B., et al., Bismuth nanoparticle decorating graphite felt as a high-performance electrode for an all-vanadium redox flow battery. Nano letters, 2013. 13(3): p. 1330- 1335. 105. Yang, X., et al., The catalytic effect of bismuth for VO2+/VO2+ and V3+/V2+ redox couples in vanadium flow batteries. Journal of Energy Chemistry, 2017. 26(1): p. 1-7. 106. Lv, Y., et al., Enhanced electrochemical activity of carbon felt for V2+/V3+ redox reaction via combining KOH-etched pretreatment with uniform deposition of Bi nanoparticles. Electrochimica Acta, 2017. 253: p. 78-84. 107. Shen, J., et al., Influence of antimony ions in negative electrolyte on the electrochemical performance of vanadium redox flow batteries. Electrochimica Acta, 2015. 151: p. 297- 305. 108. Flox, C., et al., Active nano-CuPt3 electrocatalyst supported on graphene for enhancing reactions at the cathode in all-vanadium redox flow batteries. Carbon, 2012. 50(6): p. 2372-2374. 135PDF Image | Electron Transfer Kinetics in Redox Flow Batteries
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