Stabilizing cathode structure via the binder material with high resilience for lithium-sulfur batteries.
Fengquan LiuZhiyu HuJinxin XueHong HuoJianjun ZhouLin LiPublished in: RSC advances (2019)
Lithium-sulfur (Li-S) batteries have been considered as one of the most promising next-generation energy storage systems with high-energy density. The huge volumetric change of sulfur ( ca. 80% increase in volume) in the cathode during discharge is one of the factors affecting the battery performance, which can be remedied with a binder. Herein, a self-crosslinking polyacrylate latex (PAL) is synthesized and used as a binder for the sulfur cathode of a Li-S battery to keep the cathode structure stable. The synthesized PAL has nano-sized latex particles and a low glass transition temperature ( T g ), which will ensure a uniform dispersion and good adhesion in the cathode. This crosslinking structure can provide fine elasticity to recover from the deformation due to volumetric change. The stable cathode structure, stemming from the fine elasticity of the PAL binder, can facilitate ion migration and diffusion to decrease the polarization. Therefore, the Li-S batteries with the PAL binder can function well with excellent cycling stability and superior C-rate performance.