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用于锂离子电池的硅纳米线阳极的锂化行为:功能化和孔隙率的影响

Lithiation Behavior of Silicon Nanowire Anodes for Lithium-Ion Batteries: Impact of Functionalization and Porosity.

作者信息

Schmerling Marcus, Fenske Daniela, Peters Fabian, Schwenzel Julian, Busse Matthias

机构信息

Electrical Energy Storage, Fraunhofer IFAM, Wiener Straße 12, 28359, Bremen, Germany.

出版信息

Chemphyschem. 2018 Jan 5;19(1):123-129. doi: 10.1002/cphc.201700892. Epub 2017 Nov 23.

Abstract

Metal-assisted chemical etching (MACE) provides a versatile way to synthesize silicon nanowires (SiNW) of different morphologies. MACE was used to synthesize oxide-free porous and nonporous SiNW for use as anodes for lithium-ion batteries. To improve their processing behavior, the SiNW were functionalized using acrylic acid. Differential capacity plots were used as a way to identify the degradation processes during cycling through tracking the formation of Li Si and changes in polarization. The cycling performance between porous and nonporous SiNW differed regarding Coulombic efficiency and cycling stability. The differences were attributed to the porous hull and its ability to reduce the volume expansion, although not through its porous nature but the reduced uptake of Li ions.

摘要

金属辅助化学蚀刻(MACE)为合成不同形态的硅纳米线(SiNW)提供了一种通用方法。利用MACE合成了无氧化物的多孔和无孔SiNW,用作锂离子电池的阳极。为改善其加工性能,使用丙烯酸对SiNW进行功能化处理。通过跟踪Li-Si的形成和极化变化,利用微分容量图来识别循环过程中的降解过程。多孔和无孔SiNW之间的循环性能在库仑效率和循环稳定性方面存在差异。这些差异归因于多孔外壳及其减少体积膨胀的能力,尽管不是通过其多孔性质,而是通过减少锂离子的吸收。

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