Pengaruh Perbandingan Massa Silikon/Silika terhadap Karbon pada Kinerja Anode Baterai Litium Ion dari Sekam Padi

Achmad Rochliadi, Mohammad Alief Ramdhan, Aep Patah
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Abstract

This study aims to investigate the possible utilization of silica (SiO2) and silicon (Si) derived from rice husks as anode materials in lithium-ion batteries (LIBs). SiO2 and Si have impressive theoretical capacities of 1965 and 4200 mAh/g, respectively. However, their direct use as LIBs anodes faces challenges such as substantial volume changes during battery charging and discharging, as well as low electrical conductivity. Consequently, a common approach is to create nanostructures of SiO2 and Si, such as nanoparticles, nanowires, and nanotubes, and combine them with conductive matrices like carbon-based materials. In this study, the Si/SiO2/C composite was synthesized from rice husks, taking into account the mass ratio of Si/SiO2 to C. The process involved first separating SiO2 and C from rice husks and then synthesizing the composite using the ball mill method and activated molten salt aluminothermic reduction (AlCl3/NaCl). X-ray Diffraction (XRD) analysis confirmed the successful synthesis of the composite, as indicated by characteristic peaks of the constituent compounds. Scanning Electron Microscope (SEM) imaging showed non-uniform morphology with varying particle sizes. Tests results demonstrated that the Si/SiO2/C composite with a 3:1 ratio exhibited the most promising performance as a LIB anode, maintaining a high capacity of 280.48 mAh/g with a Coulombic Efficiency (CE) of 99% after 50 testing cycles. These findings suggest that silica and silicon compounds derived from rice husks hold great potential as efficient and durable anode materials for LIBs applications.
硅/二氧化硅质量比较对碳的影响,对电池锂离子的性能影响来自稻壳
本研究旨在探讨稻壳中提取的二氧化硅(SiO2)和硅(Si)作为锂离子电池负极材料的可能性。SiO2和Si的理论容量分别为1965和4200 mAh/g。然而,它们作为锂离子电池阳极的直接使用面临着挑战,如电池充放电过程中体积的巨大变化,以及低导电性。因此,一种常见的方法是制造二氧化硅和硅的纳米结构,如纳米颗粒、纳米线和纳米管,并将它们与碳基材料等导电基质结合起来。本研究以稻壳为原料,考虑到Si/SiO2与C的质量比,合成了Si/SiO2/C复合材料。首先从稻壳中分离SiO2和C,然后采用球磨机法和活化熔盐铝热还原(AlCl3/NaCl)法制备复合材料。x射线衍射(XRD)分析证实了该复合材料的成功合成,由组成化合物的特征峰表明。扫描电镜(SEM)成像显示颗粒大小不一,形貌不均匀。测试结果表明,3:1比例的Si/SiO2/C复合材料作为锂离子电池阳极的性能最理想,在50次循环测试后,其容量保持在280.48 mAh/g,库仑效率(CE)达到99%。这些发现表明,从稻壳中提取的硅和硅化合物作为高效耐用的锂离子电池阳极材料具有很大的潜力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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