Efficient modification of Si/SiOx nanoparticles by pulse-modulated plasma flash evaporation for an improved capacity of lithium-ion storage

Kambara M.; Hamazaki S.; Kodama N.; Tanaka Y.

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Efficient modification of Si/SiOx nanoparticles by pulse-modulated plasma flash evaporation for an improved capacity of lithium-ion storage

机译：通过脉冲调制等离子体闪光蒸发提高锂离子储存能力的高效改性脉冲调制等离子体闪蒸

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Composite Si/SiOz nanoparticles have been produced from SiO powder feedstock by pulse-modulated plasma flash evaporation (PFE) and the effect on the lithium-ion battery properties are analyzed. With the introduction of power and powder-feeding pulse-modulation during PFE, the primary SiOx particle size decreases from 27.9 to 14.3 nm and the core crystalline Si is reduced from 14.2 to 7.3nm. Although no appreciable reduction in the overall oxygen content (x) in the SiOx representation is confirmed, the composite nanoparticles with amorphous Si core are formed by the modulation due to the disproportionation reaction at lower temperatures. As a result, the coulombic efficiency is improved, and the higher cycle capacities are attained for the battery using the modulated nanoparticles as an anode.

机译：通过脉冲调制等离子体闪蒸（PFE）由SiO粉末原料制备复合Si / SiOz纳米粒子，分析了对锂离子电池性能的影响。随着PFE期间引入功率和粉末供给脉冲调制，主要SiOx粒度从27.9降低到14.3nm，核心晶体Si从14.2-7nm降低。尽管确认了SiOx表示中的总氧含量（X）的明显降低，但是通过在较低温度下的歧化反应由于歧化反应而形成具有无定形Si核的复合纳米颗粒。结果，提高了库仑效率，并且使用调制的纳米颗粒作为阳极的电池获得较高的循环能力。

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来源
《Journal of Physics, D. Applied Physics: A Europhysics Journal》 |2019年第32期|共8页
作者
Kambara M.; Hamazaki S.; Kodama N.; Tanaka Y.;
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作者单位

Univ Tokyo Dept Mat Engn Tokyo Japan;

Univ Tokyo Dept Mat Engn Tokyo Japan;

Kanazawa Univ Fac Elect &

Comp Engn Kanazawa Ishikawa Japan;

Kanazawa Univ Fac Elect &

Comp Engn Kanazawa Ishikawa Japan;

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原文格式 PDF
正文语种 eng
中图分类应用物理学;
关键词
thermal plasma; nanoparticles; lithium-ion battery; silicon monoxide;

机译：热等离子体;纳米粒子;锂离子电池;硅一氧化物;

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专利

1. Efficient modification of Si/SiOx nanoparticles by pulse-modulated plasma flash evaporation for an improved capacity of lithium-ion storage [J] . Kambara M., Hamazaki S., Kodama N., Journal of Physics, D. Applied Physics: A Europhysics Journal . 2019,第32期

机译：通过脉冲调制等离子体闪光蒸发提高锂离子储存能力的高效改性脉冲调制等离子体闪蒸
2. Nitrogen Plasma-Treated Core-Bishell Si@SiOx@TiO2-delta: Nanoparticles with Significantly Improved Lithium Storage Performance [J] . Hu Jing, Fu Liang, Rajagopalan Ranjusha, ACS applied materials & interfaces . 2019,第31期

机译：氮等离子体处理的核心 - Bishell Si @ SiOx @ TiO2-Delta：纳米粒子具有显着改善的锂储存性能
3. Synergistic effects from super-small sized TiO2 and SiOx nanoparticles within TiO2/SiOx/carbon nanohybrid lithium-ion battery anode [J] . Wang Xiaoyan, Xia Yonggao, Zuo Xiuxia, CERAMICS INTERNATIONAL . 2019,第11期

机译：TiO2 / SiOx /碳纳米锂离子电池阳极中超小型尺寸TiO2和SiOx纳米粒子的协同作用
4. Modification of Ge2Sb2Te5 by the Addition of SiOx for Improved Operation of Phase Change Random Access Memory [C] . Jin-Seo Noh, Dong-Seok Suh, Sang Mock^Lee, Symposium on Materials and Devices for Smart Systems . 2006

机译：通过添加SiOx来修改Ge2sb2te5，以改进相变随机存取存储器的操作
5. Flash gas bypass - a way to improve distribution of adiabatic two-phase refrigerant flow in headers of microchannel evaporators [D] . Tuo, Hanfei 2013

机译：闪蒸气体旁路-一种改善微通道蒸发器集管中绝热两相制冷剂流量分配的方法
6. Pomegranate-Like Structured Si@SiOx Composites With High-Capacity for Lithium-Ion Batteries [O] . Jianbin Li, Wenjing Liu, Yingjun Qiao, 2020

机译：像锂离子电池高容量的石榴般的结构化Si @ SiOx复合材料
7. Nitrogen Plasma-Treated CoreBishell Si@SiOx@TiO2: Nanoparticles with Significantly Improved Lithium Storage Performance [O] . -1

机译：氮等离子体治疗的核心短纤维Si @ SiOx @ TiO2：纳米粒子具有显着改善的锂储存性能

Efficient modification of Si/SiOx nanoparticles by pulse-modulated plasma flash evaporation for an improved capacity of lithium-ion storage

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