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Competitive Tradeoff between Zn Deposition and Hydrogen Evolution Reaction on Zn-Metal Anode

Qingao Zhao, Xiaoyu Yu, Jiyuan Xue, Minghao Zhang, Zhengang Li, Jun‐Hao Wang, Yang Yang, Yeguo Zou, Yu Qiao, Shi‐Gang Sun

2024ACS Energy Letters51 citationsDOI

Abstract

In aqueous zinc batteries, the potential of the hydrogen evolution reaction (HER) is higher than that of Zn deposition, making HER unavoidable in actual charge/discharge cycles. Generally, concentrated electrolytes can reconfigure the solvation structures of electrolytes and suppress the HER. However, by analyzing various thermodynamic characteristics, concentrated electrolytes show a thermodynamic HER advantage, which seems “contradictory” to the dynamical HER disadvantage. Herein, based on ZnCl 2 electrolytes, we quantitatively assess the consumption of Zn 2+ using the variation in hydrogen bonds by correlating the dynamic evolution of interfacial hydrogen bonds and find the above contradiction lies in the ratio of the sum of Zn 2+ -H 2 O to Zn 2+ -Cl – coordination structures. Under the same Zn-deposition potential, a Zn 2+ -Cl – - rich and Zn 2+ -H 2 O-poor layer was formed at the electrode/electrolyte interface in concentrated electrolytes, contributing to Zn deposition rather than the HER. This work will deepen the understanding of how concentrated electrolytes regulate the competitive tradeoff between HER and Zn deposition.

Topics & Concepts

ElectrolyteDeposition (geology)ElectrochemistryChemistryInorganic chemistryZincHydrogenMetalAnodeAqueous solutionElectrodePhysical chemistryBiologyPaleontologyOrganic chemistrySedimentAdvanced battery technologies researchElectrocatalysts for Energy ConversionAdvanced Battery Materials and Technologies
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