摘要
Controllable fabrication of mesoporous carbon nanoparticles(MCNs)with tunable pore structures is of great interest,due to the remarkable effect of pore structure on electrochemical performance of the materials.However,it has remained a major challenge.Here,we demonstrate the controlled synthesis of MCNs with tunable closed pore structures via a silica-assisted coassembly strategy,which employs polystyrene-block-poly(ethylene oxide)diblock copolymers as soft template,phenolic resol and tetraethyl orthosilicate as carbon and silica precursors,respectively.Through simply varying the sequential cross-linking of the silica and carbon precursors or the copolymer composition,novel MCNs with alluring spherical,hollow-hoop-structured,or yolk-shell-like closed mesopores are tunably prepared.In particular,serving as cathode materials of lithium-sulfur batteries,the resultant silica-hybridized MCNs with the exceptional hollow-hoop mesopores and a moderate sulfur-loading content of 46 wt%exhibit top-level electrochemical performance.This study opens an avenue for tunable construction of mesoporous particles with closed pores and provides clues for the effect of pore geometry on the electrochemical performance of porous cathode materials for lithium-sulfur batteries.
基金
This work was supported by the National Natural Science Foundation of China(nos.21774076,61774102,and 51573091)
the National Key Research and Development Program of China(no.2017YFE0195800)
the Program of the Shanghai Committee of Science and Technology(no.17JC1403200)
the Program of Shanghai Academic Research Leader(no.19XD1421700)
the Program of Shanghai Eastern Scholar.
