Reunderstanding the Reaction Mechanism of Aqueous Zn-Mn Batteries with Sulfate Electrolytes: Role of the Zinc Sulfate Hydroxide

Overview

Journal Adv Mater

Date 2022 Feb 9

PMID 35137465

Authors

Hao Chen

Chunlong Dai

Fangyuan Xiao

Qiuju Yang

Shinan Cai

Maowen Xu

Hong Jin Fan

Shu-Juan Bao

Affiliations

Soon will be listed here.

Abstract

Rechargeable aqueous Zn-Mn batteries have garnered extensive attention for next-generation high-safety energy storage. However, the charge-storage chemistry of Zn-Mn batteries remains controversial. Prevailing mechanisms include conversion reaction and cation (de)intercalation in mild acid or neutral electrolytes, and a MnO /Mn dissolution-deposition reaction in strong acidic electrolytes. Herein, a Zn SO ·(OH) ·xH O (ZSH)-assisted deposition-dissolution model is proposed to elucidate the reaction mechanism and capacity origin in Zn-Mn batteries based on mild acidic sulfate electrolytes. In this new model, the reversible capacity originates from a reversible conversion reaction between ZSH and Zn MnO(OH) nanosheets in which the MnO initiates the formation of ZSH but contributes negligibly to the apparent capacity. The role of ZSH in this new model is confirmed by a series of operando characterizations and by constructing Zn batteries using other cathode materials (including ZSH, ZnO, MgO, and CaO). This research may refresh the understanding of the most promising Zn-Mn batteries and guide the design of high-capacity aqueous Zn batteries.

Citing Articles

Mechanistic insights into the formation of hydroxides with unconventional coordination environments to achieve their cost-effective synthesis.

Chen Z, Fan Q, Wang X, Kang L, Wan W, Avaro J Natl Sci Rev. 2025; 12(3):nwae427.

PMID: 39926197 PMC: 11804801. DOI: 10.1093/nsr/nwae427.

Unraveling the Anion Storage Properties of Manganese-Doped SrTiO.

Sharma D, Roy S, Babu B ACS Omega. 2024; 9(47):47332-47341.

PMID: 39619517 PMC: 11603244. DOI: 10.1021/acsomega.4c08911.

Reversible Zn and Mn deposition in NiFeMn-LDH cathodes for aqueous Zn-Mn batteries.

Ge Y, Pan D, Li L, Fan J, Liu W RSC Adv. 2024; 14(48):35704-35714.

PMID: 39524093 PMC: 11545922. DOI: 10.1039/d4ra06616b.

Integration of zinc anode and cement: unlocking scalable energy storage.

Liu Z, Feng P, Liu R, Yuan L, Meng X, Tao G Natl Sci Rev. 2024; 11(10):nwae309.

PMID: 39355271 PMC: 11444079. DOI: 10.1093/nsr/nwae309.

Insights into the cycling stability of manganese-based zinc-ion batteries: from energy storage mechanisms to capacity fluctuation and optimization strategies.

Liao Y, Yang C, Bai J, He Q, Wang H, Chen H Chem Sci. 2024; 15(20):7441-7473.

PMID: 38784725 PMC: 11110161. DOI: 10.1039/d4sc00510d.