锂离子阴极浆料制备过程中结构变化的流变学解释

Q3 Materials Science
Yoshiyuki Komoda , Kaoru Ishibashi , Kentaro Kuratani , Ruri Hidema , Hiroshi Suzuki , Hironori Kobayashi
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引用次数: 7

摘要

从流变学的角度研究了钴酸锂(LCO)和乙炔黑(AB)颗粒在锂离子电池阴极浆料制备过程中的分散行为。阴极浆料被认为是粗LCO颗粒在粘弹性AB浆料中的分散。利用AB料浆的粘度和损失模量估算了阴极料浆的粘度和损失模量,并对测量结果进行了比较。在AB网络结构形成后或当AB含量足够高时,LCO颗粒可以进入并破坏AB网络结构。结果表明,LCO颗粒与破碎的AB网络结构混合均匀,具有较好的放电性能。一旦阴极浆液被过度稀释,LCO颗粒被排除在AB网络结构之外,导致放电容量低。使用高剪切设备的过度碎片化会导致AB网络结构分成过小的段,这也会降低电池性能。粘度有助于了解LCO颗粒进入AB网络的情况,存储模量可以检测阴极浆料制备过程中AB网络结构的破坏情况。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Rheological interpretation of the structural change of LiB cathode slurry during the preparation process

Rheological interpretation of the structural change of LiB cathode slurry during the preparation process

The dispersion behavior of lithium cobalt oxide (LCO) and acetylene black (AB) particles in the preparation process of the cathode slurry of LiB is investigated from the rheological viewpoint. The cathode slurry is considered as the dispersion of coarse LCO particles in the viscoelastic AB slurry. Viscosity as well as loss modulus of the cathode slurry are estimated from those of the AB slurry using and compared the measured results. After forming the AB network structure or When AB content is high enough, LCO particles can enter and destroy the AB network structure. As a result, LCO particles and fragmented AB network structures are homogeneously mixed, exhibiting better discharge performance. Once the cathode slurry is excessively diluted, the LCO particles are excluded from the AB network structure, resulting in low discharge capacity. Over fragmentation using a high-shear device causes the AB network structure into too small segments, which also lowers the battery performance. Viscosity is helpful to understand the entrance of LCO particles into the AB network, and the storage modulus detects the destruction of the AB network structure during the preparation process of cathode slurry.

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来源期刊
JCIS open
JCIS open Physical and Theoretical Chemistry, Colloid and Surface Chemistry, Surfaces, Coatings and Films
CiteScore
4.10
自引率
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审稿时长
36 days
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