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two-electron-two-proton redox process, which was similar to quinones (110). Therefore, the redox potential of MB is pH dependent under acidic conditions. Based on the Nernst equation, the redox potential of MB will increase with the decrease of pH. Yu et al. coupled MB with vanadium (II) (denoted as V) in 3.5 M H2SO4. The V/MB batteries delivered a capacity fade of 0.025% per cycle for 1.2 M MB over 160 cycles and 0.074% per cycle for 1.5 M MB over 50 cycles. The superior cycling performance of V/MB batteries indicated that PTZ-based heteroaromatic molecules are promising candidates as catholyte materials for aqueous RFBs. Table 8. The structures and properties of dialkoxybenzenes. 32 Qin and Fan; Clean Energy Materials ACS Symposium Series; American Chemical Society: Washington, DC, 2020.PDF Image | Electroactive Materials Next-Generation Redox Flow Batteries
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