Sodium-ion batteries (SIBs) are considered a prospective candidate for large-scale energy storage due to the merits of abundant sodium resources and low cost. However, a lack of suitable advanced anode materials has hindered further applications. Herein, metal-semiconductor mixed phase twinned hierarchical (MPTH) MoS nanowires with an expanded interlayer (9.63 Å) are engineered and prepared using MoO nanobelts as a self-sacrificed template in the presence of a trace amount of (NH ) Mo O ·4H O as initiator. The greatly expanded interlayer spacing accelerates Na insertion/extraction kinetics, and the metal-semiconductor mixed phase enhances electron transfer ability and stabilizes electrode structure during cycling. Benefiting from the structural merits, the MPTH MoS electrode delivers high reversible capacities of 200 mAh g at 0.1 A g for 200 cycles and 154 mAh g at 1 A g for 2450 cycles in the voltage range of 0.4-3.0 V. Strikingly, the electrode maintains 6500 cycles at a current density of 2 A g , corresponding to a capacity retention of 82.8% of the 2nd cycle, overwhelming the all reported MoS cycling results. This study provides an alternative strategy to boost SIB cycling performance in terms of reversible capacity by virtue of interlayer expansion and structure stability.
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