Modifying SiO @ C as High-performance Anode of Lithium-ion Batteries

Tao Liu; Ling Zhang; Borong Wu

doi:10.1088/1742-6596/2563/1/012015

Modifying SiO @ C as High-performance Anode of Lithium-ion Batteries

Tao Liu, Ling Zhang, Borong Wu^*

^*此作品的通讯作者

材料学院

Beijing Institute of Technology

科研成果: 期刊稿件 › 会议文章 › 同行评审

1 引用（Scopus）

摘要

SiO is a widely prospected anode material, which is an excellent substitute for pure silicon for lithium-ion batteries in the future, with the reason of lower expansion degree. However, the conductivity of SiO is also poor and has a side reaction with electrolytes. Here, we choose melamine as a nitrogen source to modify the carbon layer-coated SiO materials. This study shows that nitrogen and carbon shells lead to forming stable SEI, and improve the conductivity of the anodes. Consequently, at 0.1 C, the modified SiO materials in the anode achieve an excellent specific capacity (1711.5 mAh g-1), in addition, the decay rate of the capacity is 0.6% per cycle in the next 100 cycles. This method makes a new direction for the product of SiO materials.

源语言	英语
文章编号	012015
期刊	Journal of Physics: Conference Series
卷	2563
期	1
DOI	https://doi.org/10.1088/1742-6596/2563/1/012015
出版状态	已出版 - 2023
活动	2023 3rd International Conference on Energy Engineering, New Energy Materials and Devices, NEMD 2023 - Virtual, Online, 中国期限: 24 3月 2023 → 26 3月 2023

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title = "Modifying SiO @ C as High-performance Anode of Lithium-ion Batteries",

abstract = "SiO is a widely prospected anode material, which is an excellent substitute for pure silicon for lithium-ion batteries in the future, with the reason of lower expansion degree. However, the conductivity of SiO is also poor and has a side reaction with electrolytes. Here, we choose melamine as a nitrogen source to modify the carbon layer-coated SiO materials. This study shows that nitrogen and carbon shells lead to forming stable SEI, and improve the conductivity of the anodes. Consequently, at 0.1 C, the modified SiO materials in the anode achieve an excellent specific capacity (1711.5 mAh g-1), in addition, the decay rate of the capacity is 0.6% per cycle in the next 100 cycles. This method makes a new direction for the product of SiO materials.",

author = "Tao Liu and Ling Zhang and Borong Wu",

note = "Publisher Copyright: {\textcopyright} Published under licence by IOP Publishing Ltd.; 2023 3rd International Conference on Energy Engineering, New Energy Materials and Devices, NEMD 2023 ; Conference date: 24-03-2023 Through 26-03-2023",

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doi = "10.1088/1742-6596/2563/1/012015",

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T1 - Modifying SiO @ C as High-performance Anode of Lithium-ion Batteries

AU - Liu, Tao

AU - Zhang, Ling

AU - Wu, Borong

N1 - Publisher Copyright: © Published under licence by IOP Publishing Ltd.

PY - 2023

Y1 - 2023

N2 - SiO is a widely prospected anode material, which is an excellent substitute for pure silicon for lithium-ion batteries in the future, with the reason of lower expansion degree. However, the conductivity of SiO is also poor and has a side reaction with electrolytes. Here, we choose melamine as a nitrogen source to modify the carbon layer-coated SiO materials. This study shows that nitrogen and carbon shells lead to forming stable SEI, and improve the conductivity of the anodes. Consequently, at 0.1 C, the modified SiO materials in the anode achieve an excellent specific capacity (1711.5 mAh g-1), in addition, the decay rate of the capacity is 0.6% per cycle in the next 100 cycles. This method makes a new direction for the product of SiO materials.

AB - SiO is a widely prospected anode material, which is an excellent substitute for pure silicon for lithium-ion batteries in the future, with the reason of lower expansion degree. However, the conductivity of SiO is also poor and has a side reaction with electrolytes. Here, we choose melamine as a nitrogen source to modify the carbon layer-coated SiO materials. This study shows that nitrogen and carbon shells lead to forming stable SEI, and improve the conductivity of the anodes. Consequently, at 0.1 C, the modified SiO materials in the anode achieve an excellent specific capacity (1711.5 mAh g-1), in addition, the decay rate of the capacity is 0.6% per cycle in the next 100 cycles. This method makes a new direction for the product of SiO materials.

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DO - 10.1088/1742-6596/2563/1/012015

M3 - Conference article

AN - SCOPUS:85169437606

SN - 1742-6588

VL - 2563

JO - Journal of Physics: Conference Series

JF - Journal of Physics: Conference Series

IS - 1

M1 - 012015

T2 - 2023 3rd International Conference on Energy Engineering, New Energy Materials and Devices, NEMD 2023

Y2 - 24 March 2023 through 26 March 2023

ER -

Modifying SiO @ C as High-performance Anode of Lithium-ion Batteries

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