[摘要] Free-standing thin film electrodes hold huge promise for solid-state and micro batteries required by a range of portable electronic devices. However, for lithium-sulfur (Li-S) and lithium-metal polysulfide (Li-MSx; M = Mo, V, Ti, etc.) batteries, the promising thin film electrodes are not possible yet because of low melting point of sulfur. Here, for the first time, we have developed amorphous molybdenum sulfide (MoSx) - carbon (Cy) composite thinfilms using a magnetron sputtering method with novel co-deposition of molybdenum metal and sulfur-carbon composite. The thin films were used as the free-standing cathode for Li-MSx cells that demonstrates excellent cycling performance and rate capability without any shuttle effect. The Li-MoSx cells exhibit a high arealcapacity of 115 mu Ah/cm2 at the current density of 20 mu A/cm2, an excellent stability of 500 cycles and remarkable rate capability with no traces of shuttle effect. Density functional theory (DFT)-Molecular dynamics (MD) based calculations reveal the insertion of lithium via an optimal mix of conversion and intercalation reactions without breaking the base Mo-Sx structure, eliminating the shuttle effect, and producing stable cycling performance.