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Bridging redox asymmetry in hot and cold cells for boosted power density in thermally regenerative flow batteries

✇RSC - Energy Environment
By: Huan Gao · Yuhao Cai · Wei Xiao · Mingming Yin · Minjie Liu · Tianshou Zhao · Haoran Jiang

Energy Environ. Sci., 2026, Advance Article
DOI: 10.1039/D5EE07558K, Paper
Huan Gao, Yuhao Cai, Wei Xiao, Mingming Yin, Minjie Liu, Tianshou Zhao, Haoran Jiang
Thermally regenerative flow batteries (TRFBs) offer a promising route for harvesting low-grade waste heat; however, their power output is limited by the mismatch in redox reaction kinetics during the reverse reactions between the cold and hot cells.
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Enhancing redox flow battery performance across wide temperature ranges: mechanisms, challenges, and optimization strategies for electrodes, membranes, and electrolytes

✇RSC - Energy Environment
By: Xu Lin · Meisheng Han · Haolin Ju · Hengyuan Hu · Wanqi Hu · Jiajie Luo · Lei Wei · Lin Zeng · Wenjia Li · Tianshou Zhao

Energy Environ. Sci., 2026, 19,3074-3099
DOI: 10.1039/D6EE00030D, Review Article
Xu Lin, Meisheng Han, Haolin Ju, Hengyuan Hu, Wanqi Hu, Jiajie Luo, Lei Wei, Lin Zeng, Wenjia Li, Tianshou Zhao
Failure mechanisms of redox flow batteries under wide-temperature conditions (>45 °C or <10 °C), with optimization strategies for electrodes, membranes, and electrolytes, and a future perspective on AI-assisted design.
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