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Simulation of the Impact of Si Shell Thickness on the Performance of Si-Coated Vertically Aligned Carbon Nanofiber as Li-Ion Battery Anode

机译：硅壳厚度对涂覆硅的垂直排列碳纳米纤维作为锂离子电池阳极性能的影响的模拟

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摘要

Micro- and nano-structured electrodes have the potential to improve the performance of Li-ion batteries by increasing the surface area of the electrode and reducing the diffusion distance required by the charged carriers. We report the numerical simulation of Lithium-ion batteries with the anode made of core-shell heterostructures of silicon-coated carbon nanofibers. We show that the energy capacity can be significantly improved by reducing the thickness of the silicon anode to the dimension comparable or less than the Li-ion diffusion length inside silicon. The results of simulation indicate that the contraction of the silicon electrode thickness during the battery discharge process commonly found in experiments also plays a major role in the increase of the energy capacity.

机译：微结构和纳米结构的电极具有通过增加电极的表面积并减少带电载流子所需的扩散距离来改善锂离子电池性能的潜力。我们报告了锂离子电池的数值模拟，阳极由硅涂层碳纳米纤维的核-壳异质结构制成。我们表明，通过将硅阳极的厚度减小到可比或小于硅内部Li离子扩散长度的尺寸，可以显着提高能量容量。仿真结果表明，实验中常见的电池放电过程中硅电极厚度的收缩在能量容量的增加中也起着重要作用。

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期刊名称 Nanomaterials
作者
Susobhan Das; Jun Li; Rongqing Hui;
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作者单位

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年(卷),期 2015(5),4
年度 2015
页码 2268–2278
总页数 11
原文格式 PDF
正文语种
中图分类生化遗传学;生化药理学;
关键词
Li-ion batteries battery performance nanostructures numerical simulations silicon anode carbon nanowires;

机译：锂离子电池;电池性能;纳米结构;数值模拟;硅阳极;碳纳米线;

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专利

1. Simulation of the Impact of Si Shell Thickness on the Performance of Si-Coated Vertically Aligned Carbon Nanofiber as Li-Ion Battery Anode [J] . Andy (Xueliang) Sun, Jun Li, Rongqing Hui, Nanomaterials . 2015,第4期

机译：硅壳厚度对涂覆硅的垂直取向碳纳米纤维作为锂离子电池阳极性能的影响的模拟
2. A high-performance lithium-ion battery anode based on the core-shell heterostructure of silicon-coated vertically aligned carbon nanofibers [J] . Steven A. Klankowski, Ronald A. Rojeski, Brett A. Cruden Journal of Materials Chemistry, A. Materials for energy and sustainability . 2013,第4期

机译：基于硅涂层垂直排列的碳纳米纤维的核-壳异质结构的高性能锂离子电池阳极
3. A High-Performance Anode Material for Li-Ion Batteries Based on a Vertically Aligned CNTs/NiCo2O4 Core/Shell Structure [J] . Liu Wenwen, Lu Congxiang, Liang Kun, Particle & Particle Systems Characterization: Measurement and Description of Particle Properties and Behavior in Powders and Other Disperse Systems . 2014,第11期

机译：基于垂直排列的CNTs / NiCo2O4核/壳结构的锂离子电池高性能负极材料
4. High-rate lithium-ion battery anodes based on silicon-coated vertically aligned carbon nanofibers [C] . Klankowski S.A., Pandey G.P., Cruden B.A., IEEE International Conference on Nanotechnology . 2014

机译：基于硅涂层垂直排列的碳纳米纤维的高速率锂离子电池阳极
5. Hybrid core-shell nanowire electrodes utilizing vertically aligned carbon nanofiber arrays for high-performance energy storage. [D] . Klankowski, Steven Arnold. 2015

机译：混合核-壳纳米线电极利用垂直排列的碳纳米纤维阵列实现高性能储能。
6. Rational Design of 1-D Co3O4 Nanofibers@Low content Graphene Composite Anode for High Performance Li-Ion Batteries [O] . Su-Ho Cho, Ji-Won Jung, Chanhoon Kim, -1

机译：高性能锂离子电池一维Co3O4纳米纤维@低含量石墨烯复合阳极的合理设计
7. Simulation of the Impact of Si Shell Thickness on the Performance of Si-Coated Vertically Aligned Carbon Nanofiber as Li-Ion Battery Anode [O] . Susobhan Das, Jun Li, Rongqing Hui 2015

机译：si壳层厚度对si涂层垂直排列碳纳米纤维作为锂离子电池阳极性能影响的模拟
8. High-Performance Lithium-Ion Battery Anode Based on the Core-Shell Heterostructure of Silicon-Coated Vertically Aligned Carbon Nanofibers. [R] . Klankowski, S. A., Rojeski, R. A., Cruden, B. A., 2013

机译：基于硅涂层垂直排列碳纳米纤维核壳异质结构的高性能锂离子电池正极。

Simulation of the Impact of Si Shell Thickness on the Performance of Si-Coated Vertically Aligned Carbon Nanofiber as Li-Ion Battery Anode

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