Fanfan Gao scite author profile

Redox flow batteries have received wide attention because of their unique advantages such as high efficiency, long cycle life, low operating cost, and independent adjustment of energy power. In this study, five types of anthraquinone derivative organic redox couple were selected, and the surfaces of graphite felt were modified. When the number of functional groups is increased or the substitution position is closer to the carbonyl (C=O) groups, a more pronounced hindrance for the C=O reaction on the benzene ring is observed; thus, the electrochemical performance and reversibility decreases. Sodium 9,10-anthraquinone-2-sulfonate solution is the best organic redox couple in terms of both reversibility and electrochemical performance. It was also found that all the surface treatment methods of graphite felt are beneficial for improving their electrochemical performances. All these superior results demonstrate that the graphite felt treated under air exposure at 550 °C for 3 h exhibited the best electrochemical performance, which might be attributed to the increase in the content of C–OH functional groups.

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Bi2S3 quantum dots in situ grown on MoS2 nanoflowers: An efficient electron-rich interface for photoelectrochemical N2 reduction

Gao

Yang

Dong

et al. 2022

Journal of Colloid and Interface Science

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Efficient CO2 reduction to formate using a Cu-doped BiVO4 electrocathode in a WO3 photoanode-assisted photoelectrocatalytic system

Gao

Yang

Cheng

et al. 2023

Journal of Electroanalytical Chemistry

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Fanfan Gao

Vacancies and electronic effects enhanced photoelectrochemical activity of Cu-doped Bi2Se3 for efficient CO2 reduction to formate

The impact of modified electrode on the performance of an DHAQ/ K4Fe(CN)6 redox flow battery

Electrocatalytic Activity of Modified Graphite Felt in Five Anthraquinone Derivative Solutions for Redox Flow Batteries

Bi2S3 quantum dots in situ grown on MoS2 nanoflowers: An efficient electron-rich interface for photoelectrochemical N2 reduction

Efficient CO2 reduction to formate using a Cu-doped BiVO4 electrocathode in a WO3 photoanode-assisted photoelectrocatalytic system

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