Conversion‐Type Organic‐Inorganic Tin‐Based Perovskite Cathodes for Durable Aqueous Zinc‐Iodine Batteries

水溶液 材料科学 阴极 碘化物 三碘化物 无机化学 电化学 化学工程 钙钛矿(结构) 位阻效应 电解质 物理化学 化学 电极 有机化学 色素敏化染料 冶金 工程类
作者
Shixun Wang,Zhaodong Huang,Bing Tang,Xinliang Li,Xin Zhao,Ze Chen,Chunyi Zhi,Andrey L. Rogach
出处
期刊:Advanced Energy Materials [Wiley]
卷期号:13 (24) 被引量:83
标识
DOI:10.1002/aenm.202300922
摘要

Abstract Aqueous metal‐iodine batteries have recently attracted widespread attention, but their intrinsic issues such as the undesired shuttle effect and volatility of iodine hinder their reliable long‐term performance. Herein, organic–inorganic MXDA 2 SnI 6 (MXDA 2+ denotes protonated m‐xylylenediamine cation) perovskite microcrystals with a zero‐dimensional arrangement of octahedral perovskite units offering high content of elemental iodine (46 wt% in the whole cathode) are proposed as conversion‐type cathode materials for aqueous ZnI 2 batteries. Iodide anions deliver reliable electrochemical activity and are effectively immobilized on the cathode to relieve the shuttle process by both physical steric hindrance and chemical adsorption offered by long‐chain organic matrix and the presence of B‐site Sn(II) cations in the MXDA 2 SnI 6 perovskite, respectively. Moreover, the formation of triiodide anions is alleviated in favor of a significant proportion of pentaiodide ions during the end of the charging process, enabled by increased formation energy of I 3 − and effective confinement via SnI…I halogen bonds and NH…I hydrogen bonds, as revealed by density functional theory calculations. As a result, rechargeable aqueous ZnI 2 batteries are realized that achieve a champion capacity of over 206 mAh g −1 I at 0.5 A g −1 (close to the theoretical limit), and outstanding rate capability with a capacity retention of 87% at 3 A g −1 . Suppressed shuttle of polyiodide anions endows aqueous ZnI 2 batteries with prolonged cyclic stability, namely high capacity retention of 95% after 5700 cycles at 1 A g −1 . This study promotes the development of high‐performance cathode materials for metal‐I 2 batteries by revealing the feasibility of using ionic perovskites as conversion‐type cathodes.
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