Transition metal tellurides (TMTes) are promising anodes for potassium-ion batteries (PIBs) due to their high theoretical specific capacity and impressive electronic conductivity. Nevertheless, TMTes suffer from persistent capacity degradation due to the large volume expansion, high ion-diffusion energy barriers, and the dissolution/shuttle of potassium polytellurides (KTe). Herein, a heterostructured CoTe composite equipped with a self-catalytic center (N-CoTe/LTTC) is developed, exploiting its low-tortuosity tunneling, chemical tunability, and self-catalytic properties to elevate cycling stability to new heights. Systematic experiments have verified that the elaborate N-CoTe/LTTC provides a short-range and efficient electron/ion transport path, accelerates K diffusion kinetics, and suppresses huge volume distortion. Notably, the N─Co bonds self-catalytic center can promote the adsorption capabilities and accelerate the conversion kinetics for KTe under the synergistic effect of heterojunction. Consequently, the optimized N-CoTe/LTTC electrode delivers an ultralong‑lifespan cyclability (over 25 000 cycles at 2.0 A g, only 0.0019% capacity decay rate per cycle), outperforming those of reported Te-based anodes. Finally, the N-CoTe/LTTC//PTCDA@450 full cell manifests impressive stability (over 4300 cycles at 2.0 A g). This work uncovers the impact of catalytic centers on the conversion of KTe and provides valuable insights for rationally designing ultralong-lifespan TMTes anodes for PIBs.
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