Defect Engineering in Manganese‐Based Oxides for Aqueous Rechargeable Zinc‐Ion Batteries: A Review,Advanced Energy Materials

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Defect Engineering in Manganese‐Based Oxides for Aqueous Rechargeable Zinc‐Ion Batteries: A Review
Advanced Energy Materials ( IF 24.4 ) Pub Date : 2020-07-29 , DOI: 10.1002/aenm.202001769
Ting Xiong _{1,

2} , Yaoxin Zhang ₁ , Wee Siang Vincent Lee ₁ , Junmin Xue ₁

Affiliation

The development of advanced cathode materials for aqueous the zinc ion battery (ZIB) represents a crucial step toward building future large‐scale green energy conversion and storage systems. Recently, significant progress has been achieved in the development of manganese‐based oxides for ZIB via defect engineering, whereby the intrinsic capacity and energy density have been enhanced. In this review, an overview of the recent progress in the defect engineering of manganese‐based oxides for aqueous ZIBs is summarized in the following order: 1) the structures and properties of the commonly used manganese‐based oxides, 2) the classification of the various types of defect engineering commonly reported, 3) the various strategies used to create defects in materials, and 4) the effects of the various types of defect engineering on the electrochemical performance of manganese‐based oxides. Finally, a perspective on the defect engineering of manganese‐based oxides is proposed to further enhance their electrochemical performance as a ZIB cathode.

中文翻译：

水性可充电锌离子电池锰基氧化物的缺陷工程：回顾

用于水性锌离子电池（ZIB）的先进阴极材料的开发是朝着建设未来的大规模绿色能源转换和存储系统迈出的关键一步。最近，通过缺陷工程在用于ZIB的锰基氧化物的开发中取得了重大进展，从而提高了本征容量和能量密度。在本综述中，按以下顺序概述了用于水性ZIB的锰基氧化物缺陷工程的最新进展：1）常用锰基氧化物的结构和性能，2）氧化锰的分类通常报告的各种类型的缺陷工程； 3）用于创建材料缺陷的各种策略；4）各种缺陷工程对锰基氧化物电化学性能的影响。最后，提出了关于锰基氧化物缺陷工程的观点，以进一步增强其作为ZIB阴极的电化学性能。

更新日期：2020-09-08

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