Modulating Bond Interactions and Interface Microenvironments between Polysulfide and Catalysts toward Advanced Metal–Sulfur Batteries

多硫化物 材料科学 阴极 纳米技术 氧化还原 基质(水族馆) 催化作用 电极 化学 物理化学 冶金 生物化学 电解质 海洋学 地质学
作者
Ran Zhu,Weiqiong Zheng,Rui Yan,Min Wu,Hongju Zhou,Chao He,Xikui Liu,Chong Cheng,Shuang Li,Changsheng Zhao
出处
期刊:Advanced Functional Materials [Wiley]
卷期号:32 (45) 被引量:58
标识
DOI:10.1002/adfm.202207021
摘要

Abstract Advanced metal–sulfur batteries (MSBs) are regarded as promising next‐generation energy storage devices. Recently, engineering polysulfide redox catalysts (PSRCs) to stabilize and catalytically convert polysulfide intermediates is proposed as an effective strategy to address the grand challenge of “shuttle effects” in the cathode. Therefore, modulating the bond interactions and interface microenvironments and disclosing the structure–performance correlations between polysulfide and catalysts are essential to guide the future cathode design in MSBs. Herein, from a multidisciplinary view, the most recent process in the reaction principles, in situ characterizations, bond interaction modulation, and interface microenvironment optimization of polysulfide redox catalysts, is comprehensively summarized. Especially, unique insights are provided into the strategies for tailoring the bond interactions of PSRCs, such as heteroatom doping, vacancy engineering, heterostructure, coordination structure arrangements, and crystal phase modulation. Furthermore, the importance of interface microenvironments and substrate effects in different PSRCs are exposed, and a detailed comparison is given to unveil the critical parameters for their future developments. Finally, the critical design principles on electrode microenvironments for advanced MSBs are also proposed to stimulate the practically widespread utilization of PSRCs‐equipped cathodes in MSBs. Overall, this review provides cutting‐edge guidance for future developments in high‐energy‐density and long‐life MSBs.
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