The conversion and alloying-type anodes for potassium-ion batteries (PIBs) have drawn attention. However, it is still a challenge to relieve the huge volume expansion/electrode pulverization. Herein, we synthesized a composite material comprising BiSbSe nanoparticles uniformly dispersed in carbon nanofibers (BiSbSe@C). Benefiting from the synergistic effects of the high electronic conductivity of BiSbSe and the mechanical confinement of the carbon fiber that buffers the large chemomechanical stress, the BiSbSe@C//K half cells deliver a high reversible capacity (491.4 mAh g, 100 cycles at 100 mA g) and an extraordinary cyclability (80% capacity retention, 1000 cycles at 1000 mA g). Furthermore, the BiSbSe@C-based PIB full cells achieve a high energy density of 230 Wh kg. transmission electron microscopy (TEM) reveals an intercalation, conversion, and alloying three-step reaction mechanism and a reversible amorphous transient phase. More impressively, the nanofiber electrode can almost return to its original diameter after the potassiation and depotassiation reaction, indicating a highly reversible volume change process, which is distinct from the other conversion type electrodes. This work reveals the stable potassium storage mechanisms of BiSbSe@C composite material, which provides an effective strategy to enable conversion/alloying-type anodes for high performance PIBs for energy storage applications.
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