用工业钙硅合金和CCl4低温合成高性能硅/碳负极材料的可控多层研究

IF 2.6 4区材料科学 Q2 CHEMISTRY, MULTIDISCIPLINARY

ChemNanoMat Pub Date : 2024-09-29 DOI:10.1002/cnma.202400253

Xinghao Zhao, Kai Yu, Zhiqiang Ning, Qiushi Song, Hongwei Xie

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引用次数: 0

摘要

一种简单、节能的锂离子电池高性能硅/碳负极材料合成工艺有利于应用。本文以工业Ca−Si合金和CCl4为原料，采用低温一锅法合成了层状Si/C复合材料。研究了合成温度对产物结构和性能的影响。我们发现低温有利于Si/C的多层结构。利用层状结构的优点，在300℃温度下制备的Si/C-300阳极材料具有良好的电化学性能，在电流密度为2 ag−1时，循环300次的可逆容量大于1000 mAh g−1，容量保持率为82.8%，ICE为77.0%。在6 a g−1的高电流密度下，可实现721.6 mAh g−1的比放电容量。该方法为制备高性能硅碳负极材料提供了一条很有前途的途径。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Controllable Multilayer of High-performance Si/C Anode Materials Synthesized at Low Temperature from Industrial Ca-Si Alloy and CCl4 for Lithium-ion Batteries

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Controllable Multilayer of High-performance Si/C Anode Materials Synthesized at Low Temperature from Industrial Ca-Si Alloy and CCl4 for Lithium-ion Batteries

A simple and energy-saving synthesis process for the high-performance Si/C anode material of lithium-ion batteries is advantageous for application. In this paper, the layered Si/C composite was synthesized by a low temperature one-pot synthesis from industrial Ca−Si alloy and CCl₄. The effect of synthesis temperature on the structure and performance of the products was investigated. We found that low temperature favors to the multilayer structure of Si/C. Taking the advantage of the layered structure, the Si/C-300 anode material prepared at the temperature of 300 °C has good electrochemical performance of a reversible capacity of more than 1000 mAh g⁻¹ at a current density of 2 A g⁻¹ for 300 cycles, with a capacity retention ratio of 82.8 %, and an ICE of 77.0 %. At a high current density of 6 A g⁻¹, the specific discharge capacity of 721.6 mAh g⁻¹ can be achieved. The synthesis method provides a promising route to high performance silicon-carbon anode materials.

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来源期刊

ChemNanoMat Energy-Energy Engineering and Power Technology

CiteScore

6.10

自引率

2.60%

发文量

236

期刊介绍： ChemNanoMat is a new journal published in close cooperation with the teams of Angewandte Chemie and Advanced Materials, and is the new sister journal to Chemistry—An Asian Journal.