Accelerating charge transfer efficiency by constructing heterogeneous interfaces on metal-based substrates is an effective way to improve the electrocatalytic performance of materials. However, minimizing the substrate-catalyst interfacial resistance to maximize catalytic activity remains a challenge. This study reports a simple interface engineering strategy for constructing Mo-NiS/NiS heterostructured nanoflowers. Experimental and theoretical investigations reveal that the primary role assumed by NiS in Mo-NiS/NiS heterostructure is to replace nickel foam (NF) substrate for electron conduction, and NiS has a lower potential energy barrier (0.76 to 1.11 eV) than NF (1.87 eV), resulting in a more effortless electron transfer. The interface between NiS and Mo-NiS effectively regulates electron redistribution, and when the electrons from NiS are transferred to Mo-NiS, the potential energy barriers at the heterogeneous interface are 1.06 eV, lower than that between NF and NiS (1.53 eV). Mo-NiS/NiS-0.1 exhibited excellent oxygen evolution reaction (OER)/hydrogen evolution reaction (HER) bifunctional catalytic activity in 1 M KOH, with overpotentials of only 223 mV@100 mA cm for OER and 116 mV@10 mA cm for HER. Moreover, when combined with an alkaline electrolytic cell, it required only an ultra-low cell voltage of 1.51 V to drive a current density of 10 mA cm. This work provides new inspirations for rationally designing interface engineering for advanced catalytic materials.
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