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10 References 88. Stimming, U., J. Wang, and A. Bund, The Vanadium Redox Reactions – Electrocatalysis versus Non‐Electrocatalysis. Chemphyschem, 2019. 20(22): p. 3004- 3009. 89. Chen, P., M.A. Fryling, and R.L. McCreery, Electron Transfer Kinetics at Modified Carbon Electrode Surfaces: The Role of Specific Surface Sites. Analytical Chemistry, 1995. 67(18): p. 3115-3122. 90. Goulet, M.-A., M. Skyllas-Kazacos, and E. Kjeang, The importance of wetting in carbon paper electrodes for vanadium redox reactions. Carbon, 2016. 101: p. 390-398. 91. Zhang, W., et al., Electrochemical activation of graphite felt electrode for VO2+/VO2+ redox couple application. Electrochimica Acta, 2013. 89: p. 429-435. 92. Schweiss, R., A. Pritzl, and C. Meiser, Parasitic hydrogen evolution at different carbon fiber electrodes in vanadium redox flow batteries. Journal of the Electrochemical Society, 2016. 163(9): p. A2089. 93. Sun, C.-N., et al., Hydrogen evolution at the negative electrode of the all-vanadium redox flow batteries. Journal of Power Sources, 2014. 248: p. 560-564. 94. Kokkinidis, G., Underpotential deposition and electrocatalysis. Journal of Electroanalytical Chemistry and Interfacial Electrochemistry, 1986. 201(2): p. 217- 236. 95. Trasatti, S., Electrocatalysis of hydrogen evolution: progress in cathode activation. Advances in electrochemical science and engineering, 1992. 2: p. 1-85. 96. Ross Jr, P.N., The science of electrocatalysis on bimetallic surfaces. 1998: Wiley-VCH: New York. 97. Holze, R., Underpotential deposit electrocatalysis of fast redox reactions for electrochemical energy storage systems. Journal of Solid State Electrochemistry, 1998. 2(2): p. 73-77. 98. Mehboob, S., et al., Excellent electrocatalytic effects of tin through in situ electrodeposition on the performance of all-vanadium redox flow batteries. Journal of Materials Chemistry A, 2017. 5(33): p. 17388-17400. 134PDF Image | Electron Transfer Kinetics in Redox Flow Batteries
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