Sb nanoparticle decorated rGO as a new anode material in aqueous chloride ion batteries

Qi Zhang; R. Karthick; Xiliang Zhao; Liguo Zhang; Yumeng Shi; Linfeng Sun; Ching Yuan Su; Fuming Chen

doi:10.1039/d0nr00862a

Sb nanoparticle decorated rGO as a new anode material in aqueous chloride ion batteries

Qi Zhang, R. Karthick, Xiliang Zhao, Liguo Zhang, Yumeng Shi, Linfeng Sun, Ching Yuan Su, Fuming Chen

Research output: Contribution to journal › Article › peer-review

23 Citations (Scopus)

Abstract

An aqueous chloride ion battery (CIB) is an emerging technology for electrochemical energy storage as well as battery desalination systems. However, the instability and decomposition of electrode materials in an aqueous medium is a major issue in CIBs. Herein, in one step, we synthesized fine antimony nanoparticles with a size of ∼20 nm on reduced graphene oxide (Sb@rGO) sheets using a hydrothermal route with facile and cost-effective processes. It is proposed as a new anode material and coupled with the AgCl cathode in an aqueous CIB. The specific capacity is maintained constantly at 51.6 mA h g^-1 at a current density of 400 mA g^-1 even after 200 cycles. In addition, characterization methods such as electrochemical analysis, X-ray diffraction, etc. were used to confirm the reaction mechanism. The chloride ion capture material developed in this research work will be significant for CIBs as an energy storage technology or battery desalination system.

Original language	English
Pages (from-to)	12268-12274
Number of pages	7
Journal	Nanoscale
Volume	12
Issue number	23
DOIs	https://doi.org/10.1039/d0nr00862a
Publication status	Published - 21 Jun 2020
Externally published	Yes

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title = "Sb nanoparticle decorated rGO as a new anode material in aqueous chloride ion batteries",

abstract = "An aqueous chloride ion battery (CIB) is an emerging technology for electrochemical energy storage as well as battery desalination systems. However, the instability and decomposition of electrode materials in an aqueous medium is a major issue in CIBs. Herein, in one step, we synthesized fine antimony nanoparticles with a size of ∼20 nm on reduced graphene oxide (Sb@rGO) sheets using a hydrothermal route with facile and cost-effective processes. It is proposed as a new anode material and coupled with the AgCl cathode in an aqueous CIB. The specific capacity is maintained constantly at 51.6 mA h g-1 at a current density of 400 mA g-1 even after 200 cycles. In addition, characterization methods such as electrochemical analysis, X-ray diffraction, etc. were used to confirm the reaction mechanism. The chloride ion capture material developed in this research work will be significant for CIBs as an energy storage technology or battery desalination system.",

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T1 - Sb nanoparticle decorated rGO as a new anode material in aqueous chloride ion batteries

AU - Zhang, Qi

AU - Karthick, R.

AU - Zhao, Xiliang

AU - Zhang, Liguo

AU - Shi, Yumeng

AU - Sun, Linfeng

AU - Su, Ching Yuan

AU - Chen, Fuming

PY - 2020/6/21

Y1 - 2020/6/21

N2 - An aqueous chloride ion battery (CIB) is an emerging technology for electrochemical energy storage as well as battery desalination systems. However, the instability and decomposition of electrode materials in an aqueous medium is a major issue in CIBs. Herein, in one step, we synthesized fine antimony nanoparticles with a size of ∼20 nm on reduced graphene oxide (Sb@rGO) sheets using a hydrothermal route with facile and cost-effective processes. It is proposed as a new anode material and coupled with the AgCl cathode in an aqueous CIB. The specific capacity is maintained constantly at 51.6 mA h g-1 at a current density of 400 mA g-1 even after 200 cycles. In addition, characterization methods such as electrochemical analysis, X-ray diffraction, etc. were used to confirm the reaction mechanism. The chloride ion capture material developed in this research work will be significant for CIBs as an energy storage technology or battery desalination system.

AB - An aqueous chloride ion battery (CIB) is an emerging technology for electrochemical energy storage as well as battery desalination systems. However, the instability and decomposition of electrode materials in an aqueous medium is a major issue in CIBs. Herein, in one step, we synthesized fine antimony nanoparticles with a size of ∼20 nm on reduced graphene oxide (Sb@rGO) sheets using a hydrothermal route with facile and cost-effective processes. It is proposed as a new anode material and coupled with the AgCl cathode in an aqueous CIB. The specific capacity is maintained constantly at 51.6 mA h g-1 at a current density of 400 mA g-1 even after 200 cycles. In addition, characterization methods such as electrochemical analysis, X-ray diffraction, etc. were used to confirm the reaction mechanism. The chloride ion capture material developed in this research work will be significant for CIBs as an energy storage technology or battery desalination system.

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Sb nanoparticle decorated rGO as a new anode material in aqueous chloride ion batteries

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