Synthesis of Organodiphosphonate MOFs-derived Ni2P/C Composite

Dan Xu; Shanshan Xiao; Pan Wu; Ying Pan; Lihua Chen; Baolian Su; Ming Xue; Shilun Qiu

doi:10.7503/cjcu20170551

Synthesis of Organodiphosphonate MOFs-derived Ni₂P/C Composite

Dan Xu, Shanshan Xiao, Pan Wu, Ying Pan, Lihua Chen, Baolian Su, Ming Xue, Shilun Qiu

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

Abstract

Ni and organodiphosphonate-based metal organic framework(Ni-MOF) was synthesized under hydrothermal condition using p-xylylenediphosphonate as the organic ligand. Then, Ni-MOF was selected to prepare the amorphous carbon coated Ni₂P composite materials by facile method. The composite material retained the lamellate shape of the precursor, and the BET surface area reached 202 m²/g. The Ni₂P nanoparticles in the composites had good crystallinity, and the particles were homogeneous and had no reunion. In the performance of lithium ion battery, the Ni₂P/C composite structure improved the electron and ion conductivity of the material while reducing the volume expansion of the material, thus improving the electrochemical properties of the material. The first charge and discharge capacity of Ni₂P/C composite material were 247 and 226 mA·h·g^-1, respectively, coulombic efficiency can reach 91.7%, and the coulombic efficiency reaches 100% after 200 cycles.

Original language	English
Pages (from-to)	19-24
Number of pages	6
Journal	Gaodeng Xuexiao Huaxue Xuebao/Chemical Journal of Chinese Universities
Volume	39
Issue number	1
DOIs	https://doi.org/10.7503/cjcu20170551
Publication status	Published - 10 Jan 2018
Externally published	Yes

Keywords

Carbonization
Lithium ion battery
Metal-organic framework
NiP/C Composite

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

Access to Document

10.7503/cjcu20170551

Cite this

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title = "Synthesis of Organodiphosphonate MOFs-derived Ni2P/C Composite",

abstract = "Ni and organodiphosphonate-based metal organic framework(Ni-MOF) was synthesized under hydrothermal condition using p-xylylenediphosphonate as the organic ligand. Then, Ni-MOF was selected to prepare the amorphous carbon coated Ni2P composite materials by facile method. The composite material retained the lamellate shape of the precursor, and the BET surface area reached 202 m2/g. The Ni2P nanoparticles in the composites had good crystallinity, and the particles were homogeneous and had no reunion. In the performance of lithium ion battery, the Ni2P/C composite structure improved the electron and ion conductivity of the material while reducing the volume expansion of the material, thus improving the electrochemical properties of the material. The first charge and discharge capacity of Ni2P/C composite material were 247 and 226 mA·h·g-1, respectively, coulombic efficiency can reach 91.7%, and the coulombic efficiency reaches 100% after 200 cycles.",

keywords = "Carbonization, Lithium ion battery, Metal-organic framework, NiP/C Composite",

author = "Dan Xu and Shanshan Xiao and Pan Wu and Ying Pan and Lihua Chen and Baolian Su and Ming Xue and Shilun Qiu",

year = "2018",

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TY - JOUR

T1 - Synthesis of Organodiphosphonate MOFs-derived Ni2P/C Composite

AU - Xu, Dan

AU - Xiao, Shanshan

AU - Wu, Pan

AU - Pan, Ying

AU - Chen, Lihua

AU - Su, Baolian

AU - Xue, Ming

AU - Qiu, Shilun

PY - 2018/1/10

Y1 - 2018/1/10

N2 - Ni and organodiphosphonate-based metal organic framework(Ni-MOF) was synthesized under hydrothermal condition using p-xylylenediphosphonate as the organic ligand. Then, Ni-MOF was selected to prepare the amorphous carbon coated Ni2P composite materials by facile method. The composite material retained the lamellate shape of the precursor, and the BET surface area reached 202 m2/g. The Ni2P nanoparticles in the composites had good crystallinity, and the particles were homogeneous and had no reunion. In the performance of lithium ion battery, the Ni2P/C composite structure improved the electron and ion conductivity of the material while reducing the volume expansion of the material, thus improving the electrochemical properties of the material. The first charge and discharge capacity of Ni2P/C composite material were 247 and 226 mA·h·g-1, respectively, coulombic efficiency can reach 91.7%, and the coulombic efficiency reaches 100% after 200 cycles.

AB - Ni and organodiphosphonate-based metal organic framework(Ni-MOF) was synthesized under hydrothermal condition using p-xylylenediphosphonate as the organic ligand. Then, Ni-MOF was selected to prepare the amorphous carbon coated Ni2P composite materials by facile method. The composite material retained the lamellate shape of the precursor, and the BET surface area reached 202 m2/g. The Ni2P nanoparticles in the composites had good crystallinity, and the particles were homogeneous and had no reunion. In the performance of lithium ion battery, the Ni2P/C composite structure improved the electron and ion conductivity of the material while reducing the volume expansion of the material, thus improving the electrochemical properties of the material. The first charge and discharge capacity of Ni2P/C composite material were 247 and 226 mA·h·g-1, respectively, coulombic efficiency can reach 91.7%, and the coulombic efficiency reaches 100% after 200 cycles.

KW - Carbonization

KW - Lithium ion battery

KW - Metal-organic framework

KW - NiP/C Composite

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