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In article number 1903192, Hongli Zhu and co‐workers design a cost‐effective and scalable surface modification method using graphite felt to enhance the mass transfer and reaction kinetics in aqueous flow batteries. This treatment increases the electrode surface area, improves the electrode hydrophilicity, and provides a sufficient number of oxygen groups, resulting in enhanced kinetics and electrolyte...
A scalable and efficient process to modify electrodes with enhanced mass transfer and reaction kinetics is critical for redox flow batteries (RFBs). For the first time, this work introduces electrochemical exfoliation as a surface modification method of graphite felt (GF) to enhance the mass transfer and reaction kinetics in RFBs. Anion intercalation and subsequent gas evolutions at room temperature...
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