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Building a Rechargeable Voltaic Battery via Reversible Oxide Anion Insertion in Copper Electrodes.

Jose Fernando Florez GomezNischal OliSongyang ChangShen QiuSwati KatiyarRam KatiyarGerardo MorellXianyong Wu
Published in: ACS applied energy materials (2024)
Voltaic pile, the very first battery built by humanity in 1800, plays a seminal role in battery development history. However, the premature design leads to the inevitable copper ion dissolution issue, which dictates its primary battery nature. To address this issue, solid-state electrolytes, ion exchange membranes, and/or sophisticated electrolytes are widely utilized, leading to high costs and complicated cell configuration. Herein, we build a rechargeable zinc-copper voltaic battery from simple and cheap electrolyte/separator materials, thus eliminating the need to use the above components. Notably, our battery leverages the Zn 4 SO 4 (OH) 6 · x H 2 O precipitation in ZnSO 4 electrolytes, a common side reaction in zinc batteries, to provide a "locally alkaline" environment for copper electrodes. Consequently, oxide (O 2- ) anion insertion takes place and readily transforms copper to copper(I) oxide (Cu 2 O) without any copper ion dissolution issue. Therefore, this battery realizes a high capacity of ∼370 mA h g -1 and a long cycling of ∼500 cycles. Our work provides an innovative approach to stabilize anion insertion in metal electrodes for energy storage.
Keyphrases
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