Rakesh Verma scite author profile

New anode materials with large capacity and long cyclability for next-generation potassium-ion batteries (PIBs) are required. PIBs are in the initial stage of investigation and only a few anode materials have been explored. In this study, for the first time, an SnP 3 /C nanocomposite with superior cyclability and rate performance was evaluated as an anode for PIBs. The SnP 3 /C nanocomposite was synthesized by a facile and cost-effective high-energy ball-milling technique. The SnP 3 /C electrode delivered a first reversible capacity of 410 mAh g −1 and maintained 408 mAh g −1 after 50 cycles at a specific current of 50 mA g −1 . After 80 cycles at a high specific current of 500 mA g −1 , a high capacity of 225 mAh g −1 remained. From a crystallographic analysis, it was suggested that the SnP 3 /C nanocomposite underwent a sequential and reversible conversion and alloying reactions. The excellent cycling stability and rate capability of the SnP 3 /C electrode were attributed to the nanosized SnP 3 particles and carbon buffer layer, which supplied channels for the migration of K-ions and mitigated the stress induced by a large volume change during potassiation/depotassiation. In addition, a full cell composed of the SnP 3 /C nanocomposite anode and potassium Prussian blue cathode exhibited a reversible capacity of 305 mAh g −1 at a specific current of 30 mA g −1 and retained 71.7% of the original capacity after 30 cycles. These results are important for understanding the electrochemical process of the SnP 3 /C nanocomposite and using the SnP 3 /C as an anode for PIBs.

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Synthesis of 3-dimensional interconnected porous Na3V2(PO4)3@C composite as a high-performance dual electrode for Na-ion batteries

Didwal

Verma

Min

et al. 2019

Journal of Power Sources

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SnSe nanocomposite chemically-bonded with carbon-coating as an anode material for K-ion batteries with outstanding capacity and cyclability

Verma

Didwal

Nguyen

et al. 2021

Chemical Engineering Journal

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A self-encapsulated porous Sb–C nanocomposite anode with excellent Na-ion storage performance

et al. 2018

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Rakesh Verma

An advanced solid polymer electrolyte composed of poly(propylene carbonate) and mesoporous silica nanoparticles for use in all-solid-state lithium-ion batteries

SnP₃/Carbon Nanocomposite as an Anode Material for Potassium-Ion Batteries

Synthesis of 3-dimensional interconnected porous Na3V2(PO4)3@C composite as a high-performance dual electrode for Na-ion batteries

SnSe nanocomposite chemically-bonded with carbon-coating as an anode material for K-ion batteries with outstanding capacity and cyclability

A self-encapsulated porous Sb–C nanocomposite anode with excellent Na-ion storage performance

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About

Rakesh Verma

An advanced solid polymer electrolyte composed of poly(propylene carbonate) and mesoporous silica nanoparticles for use in all-solid-state lithium-ion batteries

SnP3/Carbon Nanocomposite as an Anode Material for Potassium-Ion Batteries

Synthesis of 3-dimensional interconnected porous Na3V2(PO4)3@C composite as a high-performance dual electrode for Na-ion batteries

SnSe nanocomposite chemically-bonded with carbon-coating as an anode material for K-ion batteries with outstanding capacity and cyclability

A self-encapsulated porous Sb–C nanocomposite anode with excellent Na-ion storage performance

Contact Info

Product

Resources

About

SnP₃/Carbon Nanocomposite as an Anode Material for Potassium-Ion Batteries