Yujie Zhang scite author profile

Magnesium secondary batteries are promising candidates for large-scale energy storage systems with high safety, because of the dendrite-free electrodeposition of the magnesium anode. However, the search for available cathode materials remains a significant challenge, hindering their development. In this work, we report copper sulfide nanoparticles as high-performance cathode materials for magnesium secondary batteries, which deliver a high reversible capacity of 175 mA h g-1 at 50 mA g-1. The cathode also shows an excellent rate capability providing 90 mA h g-1 at 1000 mA g-1 and an outstanding long-term cyclability over 350 cycles. The beneficial properties are ascribed to the small-sized copper sulfide particles which facilitate the solid-state diffusion kinetics. Further investigation on the mechanism demonstrates that the reaction is a typical conversion reaction, and the excellent cycling stability is due to the CuS nanoparticles which are not facile to aggregate during cycling. This work introduces an abundant, low-cost and high-performance cathode material for magnesium secondary batteries, and provides feasibility for the practical application of magnesium secondary battery systems in large-scale energy storage devices.

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Assisted 3D printing of microneedle patches for minimally invasive glucose control in diabetes

Zhang

Huang

et al. 2020

Materials Science and Engineering: C

119

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Nanosheets assembling hierarchical starfish-like Cu2−xSe as advanced cathode for rechargeable Mg batteries

Chen

Zhang

et al. 2020

Chemical Engineering Journal

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A hollow CuS nanocube cathode for rechargeable Mg batteries: effect of the structure on the performance

et al. 2019

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CoSe₂ hollow microspheres, nano-polyhedra and nanorods as pseudocapacitive Mg-storage materials with fast solid-state Mg²⁺ diffusion kinetics

Chen

Zhang

et al. 2019

Nanoscale

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Yujie Zhang

Copper sulfide nanoparticles as high-performance cathode materials for magnesium secondary batteries

Assisted 3D printing of microneedle patches for minimally invasive glucose control in diabetes

Nanosheets assembling hierarchical starfish-like Cu2−xSe as advanced cathode for rechargeable Mg batteries

A hollow CuS nanocube cathode for rechargeable Mg batteries: effect of the structure on the performance

CoSe₂ hollow microspheres, nano-polyhedra and nanorods as pseudocapacitive Mg-storage materials with fast solid-state Mg²⁺ diffusion kinetics

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Yujie Zhang

Copper sulfide nanoparticles as high-performance cathode materials for magnesium secondary batteries

Assisted 3D printing of microneedle patches for minimally invasive glucose control in diabetes

Nanosheets assembling hierarchical starfish-like Cu2−xSe as advanced cathode for rechargeable Mg batteries

A hollow CuS nanocube cathode for rechargeable Mg batteries: effect of the structure on the performance

CoSe2 hollow microspheres, nano-polyhedra and nanorods as pseudocapacitive Mg-storage materials with fast solid-state Mg2+ diffusion kinetics

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Product

Resources

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CoSe₂ hollow microspheres, nano-polyhedra and nanorods as pseudocapacitive Mg-storage materials with fast solid-state Mg²⁺ diffusion kinetics