Tiezhong Liu scite author profile

Sodium-ion batteries (SIBs) have been regarded as a promising alternative to lithium-ion batteries due to the natural abundance of sodium in the earth's crust. In our work, fusiform Fe 7 X 8 @C (X = S, Se) composites were obtained via a one-step pyrolysis strategy applied to SIB anode materials. The formed carbon skeleton could prevent the Fe 7 X 8 nanoparticles from agglomeration and stabilize the interface of Fe/Na 2 X generated in the redox reactions. Fe 7 X 8 @C (X = S, Se) exhibits excellent reversible specific capacity (1005.3 mAh g −1 under 0.2 A g −1 for Fe 7 S 8 @C and 458.5 mAh g −1 under 0.5 A g −1 for Fe 7 Se 8 @C), outstanding rate performance (654.7 mAh g −1 for Fe 7 S 8 @C and 392.9 mAh g −1 for Fe 7 Se 8 @C going through 300 loops even under 2 A g −1 ), and excellent cycling properties (795.8 mAh g −1 after 50 loops under 0.2 A g −1 for Fe7S 8 @C and 399.9 mAh g −1 going through 150 loops under 0.5 A g −1 for Fe 7 Se 8 @C). The excellent electrochemical performance of Fe 7 X 8 @C composites makes them promising anode materials for SIBs.

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FeSe2/nitrogen-doped carbon as anode material for Potassium-ion batteries

Liu

Yang

et al. 2020

Chemical Engineering Journal

137

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Tiezhong Liu

In Situ Fabrication of Carbon-Encapsulated Fe₇X₈ (X = S, Se) for Enhanced Sodium Storage

FeSe2/nitrogen-doped carbon as anode material for Potassium-ion batteries

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Tiezhong Liu

In Situ Fabrication of Carbon-Encapsulated Fe7X8 (X = S, Se) for Enhanced Sodium Storage

FeSe2/nitrogen-doped carbon as anode material for Potassium-ion batteries

Contact Info

Product

Resources

About

In Situ Fabrication of Carbon-Encapsulated Fe₇X₈ (X = S, Se) for Enhanced Sodium Storage