Kinetically optimized copper sulfide cathodes for rechargeable magnesium batteries

电化学 硫化铜 阴极 材料科学 X射线光电子能谱 化学工程 电化学动力学 动力学 无机化学 电极 化学 物理化学 冶金 工程类 物理 量子力学
作者
Changliang Du,Zhanli Han,Hui Peng,Jiachen Tian,Xinyu Yang,Tianyu Xia,Xilan Ma,Youqi Zhu,Chuanbao Cao
出处
期刊:Journal of Power Sources [Elsevier BV]
卷期号:546: 231673-231673 被引量:23
标识
DOI:10.1016/j.jpowsour.2022.231673
摘要

Copper sulfides have been recognized as one of the most promising cathode materials for rechargeable magnesium batteries due to their large theoretical capacity and unique conversion-type mechanism. However, the solid-state diffusion of bivalent Mg 2+ ions in CuS host lattice is subjected to huge electrostatic interaction and thus sluggish kinetics. Herein, anion substitution strategy and crystal engineering are reported to regulate electrochemical reaction kinetics and reinforce magnesium storage performances of tubular CuS cathodes. Benefitting from anion substitution and crystal facet regulation, the lattice well-exposed Se-substituted CuS nanotube cathodes demonstrate excellent magnesium storage capacity (372.9 mAh g −1 at 100 mA g −1 ), remarkable cycling stability (1600 cycles at 2.0 A g −1 ), and a good rate capability (112.4 mAh g −1 at 2.0 A g −1 ). Electrochemical kinetics investigation further suggests that anionic Se-substitution and crystal facet regulation can significantly optimize electrochemical reaction kinetics and accelerate diffusion rate of Mg 2+ ions. Ex-situ X-ray photoelectron spectroscopy (XPS) and X-ray diffraction (XRD) characterizations reveal the conversion reaction mechanism of Se-substituted CuS cathodes. These novel findings provide an effective approach to construct high-performance cathode materials for rechargeable magnesium batteries and hold great promise for development of other new battery systems. The optimized kinetics of CuS nanotubes are realized via high-efficiency anion substitution strategy and crystal engineering . The overall Mg 2+ storage properties , reversible capacity, rate capability and cycling stability, are almost the best among the published similar cathode materials. • The lattice well-exposed Se-substituted CuS nanotubes are fabricated. • The overall Mg 2+ storage property is almost the best among the published cathode. • Weaker polarization and higher Mg 2+ mobility are realized by rational regulation. • The multistep reaction kinetics of the Se-doping CuS nanotube cathode are confirmed.
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