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Received — 31 May 2026 ⏭ RSC - Energy Environment

RSC - Energy Environment
An expandable cement-induced pseudo-supercapacitor brick for self-energy-storage buildings 18 May 2026 at 00:00

An expandable cement-induced pseudo-supercapacitor brick for self-energy-storage buildings

By: Jiarui Xing · Lan Wang · Yifan Guo · Weihuan Li · Yulin Wang · Wenmiao Zhao · Yuping Wu · Wei Wang · Jiarui He · Yang Zhou

18 May 2026 at 00:00

Energy Environ. Sci., 2026, Advance Article
DOI: 10.1039/D6EE00784H, Paper

Jiarui Xing, Lan Wang, Yifan Guo, Weihuan Li, Yulin Wang, Wenmiao Zhao, Yuping Wu, Wei Wang, Jiarui He, Yang Zhou
A full-cement energy storage device with cement-induced pseudocapacitive electrodes and magnesia-cement electrolytes is developed for self-energy-storage buildings, enabling energy storage, semi-structural function, and photovoltaic utilization.
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Competitive solvent occupation chemistry enabling robust four-electron conversion for anti-freezing aqueous zinc–iodine batteries

RSC - Energy Environment

By: Wenyu Xu · Zelin Chang · Hongwei Wang · Binfen Wang · Hongbo Ding · Jijian Xu · Xinliang Li

9 April 2026 at 00:00

Energy Environ. Sci., 2026, 19,3010-3020
DOI: 10.1039/D6EE00755D, Paper

Wenyu Xu, Zelin Chang, Hongwei Wang, Binfen Wang, Hongbo Ding, Jijian Xu, Xinliang Li
A competitive solvent-occupation strategy reconstructs the hydrogen-bond network to unleash balanced two-step four-electron iodine conversion, delivering ultralong 495 day stability at −20 °C.
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