Electrospun Si and Si/C Fiber Anodes for Li-Ion Batteries

IF 4.6 4区 化学 Q2 ELECTROCHEMISTRY
Batteries Pub Date : 2023-11-26 DOI:10.3390/batteries9120569
Abhishek N. Mondal, R. Wycisk, John Waugh, P. Pintauro
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Abstract

Due to structural changes in silicon during lithiation/delithiation, most Li-ion battery anodes containing silicon show rapid gravimetric capacity fade upon charge/discharge cycling. Herein, we report on a new Si powder anode in the form of electrospun fibers with only poly(acrylic acid) (PAA) binder and no electrically conductive carbon. The performance of this anode was contrasted to a fiber mat composed of Si powder, PAA binder, and a small amount of carbon powder. Fiber mat electrodes were evaluated in half-cells with a Li metal counter/reference electrode. Without the addition of conductive carbon, a stable capacity of about 1500 mAh/g (normalized to the total weight of the anode) was obtained at 1C for 50 charge/discharge cycles when the areal loading of silicon was 0.30 mgSi/cm2, whereas a capacity of 800 mAh/g was obtained when the Si loading was increased to ~1.0 mgSi/cm2. On a Si weight basis, these capacities correspond to >3500 mAh/gSi. The capacities were significantly higher than those found with a slurry-cast powdered Si anode with PAA binder. There was no change in fiber anode performance (gravimetric capacity and constant capacity with cycling) when a small amount of electrically conductive carbon was added to the electrospun fiber anodes when the Si loading was ≤1.0 mgSi/cm2.
用于锂离子电池的电纺硅和硅/碳纤维阳极
由于硅在石化/脱硅过程中会发生结构变化,大多数含硅的锂离子电池阳极在充放电循环过程中会出现快速的重力容量衰减。在此,我们报告了一种新型硅粉末阳极,它采用电纺纤维的形式,只有聚丙烯酸(PAA)粘合剂,没有导电碳。我们将这种阳极的性能与由硅粉、PAA 粘合剂和少量碳粉组成的纤维毡进行了对比。在带有锂金属对/参比电极的半电池中对纤维毡电极进行了评估。在不添加导电碳的情况下,当硅的等面积负载为 0.30 毫克硅/平方厘米时,在 1C 下进行 50 次充放电循环,可获得约 1500 毫安时/克的稳定容量(以阳极总重量为标准);而当硅的负载增加到约 1.0 毫克硅/平方厘米时,可获得 800 毫安时/克的容量。按硅重量计算,这些容量相当于大于 3500 mAh/gSi。这些容量明显高于使用 PAA 粘合剂的浆料浇铸粉末硅阳极。当硅负载量≤1.0 mgSi/cm2时,在电纺纤维阳极中加入少量导电碳,纤维阳极的性能(重量容量和循环恒定容量)没有变化。
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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来源期刊
Batteries
Batteries Energy-Energy Engineering and Power Technology
CiteScore
4.00
自引率
15.00%
发文量
217
审稿时长
7 weeks
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