Tuning Ion Transport at the Anode‐Electrolyte Interface via a Sulfonate‐Rich Ion‐Exchange Layer for Durable Zinc‐Iodine Batteries

Zhang, Leiqian; Huang, Jiajia; Guo, Hele; Ge, Lingfeng; Tian, Zhihong; Zhang, Mingjie; Wang, Jingtao; He, Guanjie; Liu, Tianxi; Hofkens, Johan; Brett, Dan J. L.; Lai, Feili

doi:10.1002/aenm.202203790

articleAdvanced Energy MaterialsFeb 5, 2023GREEN OA

Tuning Ion Transport at the Anode‐Electrolyte Interface via a Sulfonate‐Rich Ion‐Exchange Layer for Durable Zinc‐Iodine Batteries

LZLeiqian Zhang JHJiajia Huang HGHele Guo LGLingfeng Ge ZTZhihong Tian

Zhengzhou University · KU Leuven · +5 more institutions

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Abstract

Abstract Rechargeable aqueous zinc‐iodine batteries (ZIBs) are considered a promising newly‐developing energy‐storage system, but the corrosion and dendritic growth occurring on the anode seriously hinder their future application. Here, the corrosion mechanism of polyiodide is revealed in detail, showing that it can spontaneously react with zinc and cause rapid battery failure. To address this issue, a sulfonate‐rich ion‐exchange layer (SC‐PSS) is purposely constructed to modulate the transport and reaction chemistry of polyiodide and Zn 2+ at the zinc/electrolyte interface. The resulting ZIBs can work properly over 6000 cycles with high‐capacity retention (90.2%) and reversibility (99.89%). Theoretical…

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179

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Percentile: 100%
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Authors

12

Topics & keywords

Topics

Keywords

Electrolyte
Materials science
Anode
Inorganic chemistry
Sulfonate
Chemical engineering
Zinc
Aqueous solution

UN Sustainable Development Goals

Affordable and clean energy

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Funding

NN
National Natural Science Foundation of China
Awards: 21674019, 21875033, 51873198, 52161135302