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10 References 109. Flox, C., et al., Strategies for enhancing electrochemical activity of carbon-based electrodes for all-vanadium redox flow batteries. Applied energy, 2013. 109: p. 344- 351. 110. Wei, L., et al., Copper nanoparticle-deposited graphite felt electrodes for all vanadium redox flow batteries. Applied Energy, 2016. 180: p. 386-391. 111. Han, P., et al., RuSe/reduced graphene oxide: an efficient electrocatalyst for VO2+/VO2+ redox couples in vanadium redox flow batteries. RSC advances, 2014. 4(39): p. 20379-20381. 112. Al-Ahmed, A., Electrode Modification for Better Kinetics in all Vanadium Redox Flow Battery (AVRFB): A Short Review. Advanced Materials Research, 2015. 1116: p. 229- 235. 113. Khan, M.A., et al., Recent Progresses in Electrocatalysts for Water Electrolysis. Electrochemical Energy Reviews, 2018. 1(4): p. 483-530. 114. Wang, W. and X. Wang, Investigation of Ir-modified carbon felt as the positive electrode of an all-vanadium redox flow battery. Electrochimica Acta, 2007. 52(24): p. 6755-6762. 115. Wu, X., et al., PbO2-modified graphite felt as the positive electrode for an all-vanadium redox flow battery. Journal of Power Sources, 2014. 250: p. 274-278. 116. Faraji, M., A. Hassanzadeh, and M. Mohseni, Interlaced WO3-carbon nanotube nanocomposite electrodeposited on graphite as a positive electrode in vanadium redox flow battery. Thin Solid Films, 2017. 642: p. 188-194. 117. Ma, Q., et al., High electro-catalytic graphite felt/MnO2 composite electrodes for vanadium redox flow batteries. Science China Chemistry, 2018. 61(6): p. 732-738. 118. He, Z., et al., Mn3O4 anchored on carbon nanotubes as an electrode reaction catalyst of V(IV)/V(V) couple for vanadium redox flow batteries. Electrochimica Acta, 2015. 176: p. 1434-1440. 119. Ejigu, A., M. Edwards, and D.A. Walsh, Synergistic Catalyst–Support Interactions in a Graphene–Mn3O4 Electrocatalyst for Vanadium Redox Flow Batteries. ACS Catalysis, 2015. 5(12): p. 7122-7130. 136PDF Image | Electron Transfer Kinetics in Redox Flow Batteries
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