中和
阳极
丙烯酸
聚丙烯酸
材料科学
化学工程
锂(药物)
氢氧化铵
硅
复合材料
电极
化学
共聚物
聚合物
冶金
抗体
物理化学
内分泌学
免疫学
工程类
生物
医学
作者
Zhangxing Shi,Sisi Jiang,Lily A. Robertson,Yuyue Zhao,Erik Sarnello,Tao Li,Wei Chen,Zhengcheng Zhang,Lu Zhang
标识
DOI:10.1021/acsami.0c18559
摘要
Neutralization of poly(acrylic acid) (PAA)-based binders using lithium hydroxide is a common strategy for fabricating silicon anode laminates, which improves rheological properties of slurries toward high-quality electrode laminates. However, the significantly increased basicity causes degradation of Si particles while the irreversible conversion of carboxylic acid groups to lithium carboxylates undermines the binding strength, collectively leading to adverse cycling performance of the fabricated Si anodes. Herein, a novel neutralization process for PAA binders is developed. A weak base, ammonia (NH3), was discovered as a neutralizing agent that still promotes rheological response of binder solutions but results in a reduced pH increase. Interestingly, the resulting ammonium carboxylate groups may cleave during the drying process to restore the neutralized PAA (PAA-NH3) binders to their pristine states. The best-performing composition of 50% neutralization (PAA-50%NH3) provides comparable rheological response as a PAA-Li binder as well as much improved cycling performance. The half-cells using the PAA-50%NH3 binder can deliver 60% capacity retention over 100 cycles at C/3 rate, affording a 23.8% increase compared to PAA-Li half-cells. This restorable neutralization process of PAA binders represents an innovative strategy of mitigating issues from slurry processing of Si particles to achieve concurrent improvements in high-quality lamination and cycling performance.
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