Abstract
Se doping has recently demonstrated to be an powerful solution for enhancing the electrochemical performance due to the formation of Se-contained phase, which acts as a buffer matrix against strain and Sn agglomeration upon cycling. In this work, SnS0.9Se0.1 nanoparticles with sub-stoichiometric ratio of Se doping were encapsulated into carbon nanofibers by electrospinning technique. Compared with Se-free samples, Se-doped SnS0.9Se0.1@CNFs electrodes exhibit significantly improved cyclic stability and better rate capability. The degradation of specific capacity is 27% for the former while only 7% for the latter, i.e., 4 times improvement of the cycling stability.
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