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10 References 131. González, Z., et al., Thermally reduced graphite and graphene oxides in VRFBs. Nano Energy, 2013. 2(6): p. 1322-1328. 132. Schmidt, C.N. and G. Cao, Properties of mesoporous carbon modified carbon felt for anode of all-vanadium redox flow battery. Science China Materials, 2016. 59(12): p. 1037-1050. 133. Yang, H., C. Fan, and Q. Zhu, Activated charcoal modified graphite felts using for positive electrodes of vanadium redox flow battery. Journal of Electrochemical Energy Conversion and Storage, 2017. 14(4). 134. Lee, M.E., et al., Standalone macroporous graphitic nanowebs for vanadium redox flow batteries. Journal of industrial and engineering chemistry, 2018. 60: p. 85-90. 135. Peng, L., et al., Holey 2D nanomaterials for electrochemical energy storage. Advanced Energy Materials, 2018. 8(9): p. 1702179. 136. Liu, Y., et al., Holey-engineered electrodes for advanced vanadium flow batteries. Nano Energy, 2018. 43: p. 55-62. 137. Zhou, Y., et al., Carbon dots promoted vanadium flow batteries for all-climate energy storage. Chemical Communications, 2017. 53(54): p. 7565-7568. 138. Han, P., et al., Graphene oxide nanoplatelets as excellent electrochemical active materials for VO2+/VO2+ and V2+/V3+ redox couples for a vanadium redox flow battery. Carbon, 2011. 49(2): p. 693-700. 139. Schuette, S.A. and R.L. McCreery, Efficient Hydrodynamic Modulation Voltammetry with a Microcylinder Electrode. Analytical Chemistry, 1986. 58(8): p. 1778-1782. 140. Kovach, P.M., M.R. Deakin, and R.M. Wightman, Electrochemistry at partially blocked carbon-fiber microcylinder electrodes. Journal of Physical Chemistry, 1986. 90(19): p. 4612-4617. 141. Wang, J., P. Tuzhi, and V. Villa, Activation of carbon fiber microelectrodes by alternating current electrochemical treatment. Journal of Electroanalytical Chemistry, 1987. 234(1-2): p. 119-131. 142. Aoki, K. and H. Kaneko, Theory of irreversible cyclic voltammograms at microcylinder electrodes. Journal of Electroanalytical Chemistry, 1988. 247(1-2): p. 17-27. 138PDF Image | Electron Transfer Kinetics in Redox Flow Batteries
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