Boosting Potassium Storage Performance of the CuS Anode Morphology Engineering and Electrolyte Chemistry.

Transition metal sulfides (TMSs) have been demonstrated as attractive anodes for potassium-ion batteries (KIBs) due to the high capacity, abundant resource, and excellent redox reversibility. Unfortunately, practical implementation of TMSs to KIBs is still hindered by the unsatisfactory cyclability and rate performance which result from the vast volume variation during charge/discharge processes. Herein, a uniform nitrogen-doped carbon coated CuS hollow nanocube (CuS@NC) is designed as an anode material for the KIB, which displays an outstanding cycle performance (317 mAh g after 1200 cycles at 1 A g) and excellent rate capacity (257 mAh g at 6 A g) in a half-cell. The hollow nanosized structure can both shorten the diffusion length of potassium ions/electrons and buffer the volume expansion upon cycling. Besides, the high concentration electrolyte is beneficial to form the stable solid electrolyte interphase (SEI) film, reducing the interface impedance and enhancing the cycling stability. transmission electron microscopy (TEM) and X-ray diffraction (XRD) reveal the reaction mechanism of CuS@NC.