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Thiosulfate‐Mediated Polysulfide Redox for Energetic Aqueous Battery

Yutong Feng, Xiaoyu Yu, Boya Wang, Tengsheng Zhang, Wanhai Zhou, Yifeng Wang, Xinran Li, Jian Zhao, Jingwen Zhao, Wei Li, Chenyan Ma, Dongyuan Zhao, Dongliang Chao

2024Angewandte Chemie International Edition13 citationsDOI

Abstract

Abstract Sulfur‐based aqueous batteries (SABs) are regarded as promising candidates for safe, low‐cost, and high‐energy storage. However, the sluggish redox kinetics of polysulfides pose a significant challenge to the practical performance of SABs. Herein, we report a unique redox regulation strategy that leverages thiosulfate‐mediated ligand‐chain interaction to accelerate the polysulfide redox process (S 0 /S 2− ). The S 2 O 3 2− species in the electrolyte can induce the rapid reduction of polysulfide through a spontaneous chemical reaction with sulfur species, while facilitating the reversible oxidation of short‐chain sulfides. Moreover, the thiosulfate redox pair (S 2 O 3 2− /S 4 O 6 2− ) within the K 2 S 2 O 3 electrolyte contributes additional capacity at higher potential (E 0 >0 V vs SHE). Consequently, the elaborate SAB delivers an unprecedented K + storage capacity of 2470 mAh g s −1 , coupled with a long cycling life exceeding 1000 cycles. Remarkably, thiosulfate‐mediated SAB achieves an energy density of 616 Wh kg S+Zn −1 , surpassing both organic K–S batteries and conventional aqueous battery systems. This work elucidates the mechanism underlying the thiosulfate‐mediated polysulfide redox process, thereby opening a pathway for the development of high‐energy aqueous batteries.

Topics & Concepts

PolysulfideThiosulfateRedoxChemistryAqueous solutionSulfurElectrolyteElectrochemistryBattery (electricity)Inorganic chemistryCombinatorial chemistryOrganic chemistryElectrodePhysical chemistryPhysicsQuantum mechanicsPower (physics)Advanced battery technologies researchAdvanced Battery Materials and TechnologiesPerovskite Materials and Applications
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