Zhijiang Gong scite author profile

Metal sulfides have attracted tremendous research interest for developing high-performance electrodes for potassium-ion batteries (PIBs) for their high theoretical capacities. Nevertheless, the practical application of metal sulfides in PIBs is still unaddressed due to their intrinsic shortcomings of low conductivity and severe volume changes during the potassiation/depotassiation process. Herein, robust Fe7S8/C hybrid nanocages reinforced by defect-rich MoS2 nanosheets (Fe7S8/C@d-MoS2) were designed, which possess abundant multichannel and active sites for potassium-ion transportation and storage. Kinetic analysis and theoretical calculation verify that the introduction of defect-rich MoS2 nanosheets dramatically promotes the potassium-ion diffusion coefficient. The ex-situ measurements revealed the potassium-ion storage mechanism in the Fe7S8/C@d-MoS2 composite. Benefitting from the tailored structural design, the Fe7S8/C@d-MoS2 hybrid nanocages show high reversible capacity, exceptional rate property, and superior cyclability.

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Superior potassium-ion storage properties by engineering pseudocapacitive sulfur/nitrogen-containing species within three-dimensional flower-like hard carbon architectures

Wang

Gong

et al. 2020

Carbon

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Carbon confinement synthesis of interlayer-expanded and sulfur-enriched MoS2+x nanocoating on hollow carbon spheres for advanced Li-S batteries

Wang

Song

et al. 2019

Nano Res.

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Reliable and valid pyrite electrocatalysts supported on nitrogen-doped porous carbon sheets for advanced lithium sulfur batteries

Chen

Wang

et al. 2019

Journal of Power Sources

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Zhijiang Gong

In situ engineered ZnS–FeS heterostructures in N-doped carbon nanocages accelerating polysulfide redox kinetics for lithium sulfur batteries

A Robust Strategy for Engineering Fe₇S₈/C Hybrid Nanocages Reinforced by Defect-Rich MoS₂ Nanosheets for Superior Potassium-Ion Storage

Superior potassium-ion storage properties by engineering pseudocapacitive sulfur/nitrogen-containing species within three-dimensional flower-like hard carbon architectures

Carbon confinement synthesis of interlayer-expanded and sulfur-enriched MoS2+x nanocoating on hollow carbon spheres for advanced Li-S batteries

Reliable and valid pyrite electrocatalysts supported on nitrogen-doped porous carbon sheets for advanced lithium sulfur batteries

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Zhijiang Gong

In situ engineered ZnS–FeS heterostructures in N-doped carbon nanocages accelerating polysulfide redox kinetics for lithium sulfur batteries

A Robust Strategy for Engineering Fe7S8/C Hybrid Nanocages Reinforced by Defect-Rich MoS2 Nanosheets for Superior Potassium-Ion Storage

Superior potassium-ion storage properties by engineering pseudocapacitive sulfur/nitrogen-containing species within three-dimensional flower-like hard carbon architectures

Carbon confinement synthesis of interlayer-expanded and sulfur-enriched MoS2+x nanocoating on hollow carbon spheres for advanced Li-S batteries

Reliable and valid pyrite electrocatalysts supported on nitrogen-doped porous carbon sheets for advanced lithium sulfur batteries

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A Robust Strategy for Engineering Fe₇S₈/C Hybrid Nanocages Reinforced by Defect-Rich MoS₂ Nanosheets for Superior Potassium-Ion Storage