SnS nanoparticles as an artificial solid electrolyte interphase and effective conductive additive in silicon anodes

Using a simple hydrothermal method, we developed a [email protected] anode material with SnS nanoparticles uniformly attached to the surface of silicon nanoparticles. Utilizing the first charge-discharge reaction mechanism of SnS, combined with the artificial solid electrolyte interphase to improve the solid electrolyte interphase stability of silicon-based materials and the introduction of conductive additives to improve the conductive properties of silicon-based materials, the [email protected] material exhibits very excellent performance when applied to lithium-ion battery anodes. At a current density of 0.5A.g−1,after two cycles, the overall resistance of the [email protected] material battery is reduced by nearly 55% relative to the resistance of the pure silicon battery. As a half-cell anode material, the first coulombic efficiency of [email protected] at a current density of 1A.g−1 reached 85%, and after 200 cycles, it provided a reversible capacity of 1790 mAh.g−1 and a capacity retention rate of 74.6%.