官能团对碳纳米管端部锂离子的影响

Xie Hui, L. Geng, Yang Cheng-bing, L. Chong, L. Chao
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引用次数: 6

摘要

锂铁穿过碳纳米管VLi入口的平均轴向速度是影响可充电锂电池充放电性能的重要因素。采用分子动力学模拟方法对碳纳米管直径、端口上官能团类型和给定类型官能团数量等因素及其对VLi的影响进行了评价。对计算结果的统计分析表明:在所选的4种不同直径的碳纳米管中,由于锂铁迁移阻力减小,VLi会随着碳纳米管直径的增加而逐渐升高;由于碳纳米管的端口依次被修饰为氢(-H)、羟基(-OH)、氨基(-NH2)和羧基(-COOH),相应的锂离子的迁移阻力增强,导致VLi下降;对比四种官能团对VLi的作用强度,-COOH作用最强,-NH2和-OH作用相对较弱,-NH2和-OH作用差异很小,-H作用最弱;当端口上给定的非氢官能团数依次增加时,也呈现出锂离子迁移阻力逐渐增大的趋势,使得VLi依次减小。官能团影响越大,官能团数变化对VLi的影响越大。本文的研究结果对锂离子电池电极材料的精确生产,提高电池整体循环效率和充电速度具有一定的意义。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Effects of the Functional Group on the Lithium Ions Across the Port of Carbon Nanotube
The mean axial velocity of lithium irons across the entrance of carbon nanotube VLi is an important factor for the charge-discharge performances of rechargeable Lithium battery. The molecular dynamics simulation method is adopted to evaluate the factors and their effects on VLi which include the diameter of carbon nanotube, functional group type on the port and the number of a given type of functional group. The statistical analysis of the calculation results shows that: In the selected carbon nanotubes of four different diameters, VLi will gradually rise with the increase of CNT diameter due to lithium irons migration resistance decreasing; as the port of CNT is successively modified to hydrogen (-H), hydroxyl (-OH), amino (-NH2) and carboxyl (-COOH), the corresponding migration resistance of lithium ions is enhanced resulting in the dropping of VLi; in comparison to the effect strength of four types of functional groups on VLi, -COOH shows strongest, -NH2 and -OH perform relatively weaker, and the effect difference between -NH2 and -OH is very small, -H displays weakest; When the number of a given non-hydrogen functional group on the port sequentially increases, it also shows a trend that lithium ion migration resistance gradually increases which makes VLi decreases in turn. The more influential the functional group, the greater the impact of functional group number changes on VLi. The results of this paper have some significance on the precise production of lithium-ion battery electrode materials, enhancing the overall battery cycle efficiency and charging speed.
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