首页|Effect of zinc-based active sites on porous carbon and electrochemical properties in lithium-sulfur batteries
Effect of zinc-based active sites on porous carbon and electrochemical properties in lithium-sulfur batteries
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NSTL
Elsevier
? 2022 Elsevier B.V.Hierarchically porous carbon (HPC) is considered as one of the promising cathodes of lithium-sulfur batteries (LSBs) owing to its appealing merits. However, it is still preventing the shuttle effect poorly due to the weak interaction between nonpolar carbon and polar polysulfide (LiPS). Herein, we report a facile method to prepare polar hierarchically porous carbon by in-situ loading the different amounts of zinc-based active sites (p-HPC-X) onto the HPC materials. The close combination of a carbon interconnected skeleton and ZnS nanoparticles derived zinc-based active sites forms the strong interaction that suppresses the soluble polysulfide shuttle effect and catalyzes the kinetics redox reactions of lithium polysulfide/sulfide. Moreover, the effect of polar sites introduced in situ on the morphology/porosity of carbon materials is also focused on. Crystallization of zinc-based active sites during the freeze-drying process and self-assembly during carbonization allow the pore size distribution of porous carbon to be customized, which offers fast lithium-ion and electron transport channels. Due to the synergistic effect of the hierarchical pore structure and suitable polarity sites, the p-HPC-X exhibits high capacity and good cycling performance. Especially p-HPC-1, it yields a high reversible capacity of 683.7 mAh g?1 and a low fading rate of 0.041% per cycle over 900 cycles at a current density of 1 C. This work offers novel insights into realizing the effect of in-situ loaded active sites on pore structure and electrochemical performance in LSBs.
Hierarchically porous carbonLithium-Sulfur batteriesPolarZinc-based active sites
Ren X.、Lu C.、Yuan S.、Liu Z.、Zhang M.、Li D.
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CAS Key Laboratory for Carbon Materials Institute of Coal Chemistry Chinese Academy of Sciences
National Engineering Laboratory for Carbon Fiber Technology Institute of Coal Chemistry Chinese Academy of Sciences
NSTL
Elsevier
