One-step in-situ sprouting high-performance NiCoSxSey bifunctional catalysts for water electrolysis at low cell voltages and high current densities

Abstract

Engineering high-performance non-precious metal-based bifunctional catalysts for water splitting are still facing some issues especially at industry-relevant current densities. Here, this challenge is addressed by the new approach to grow extra-stable nickel cobalt sulfur-selenide (NiCoSxSey) nanosheet catalysts on nickel–cobalt foam (NCF), and the obtained NiCoSxSey affords the low overpotentials of 345 mV for hydrogen evolution reaction (HER) and 427 mV for oxygen evolution reaction (OER) at 1000 mA cm−2 (j1000). Meanwhile, the NiCoSxSey/NCF also shows the excellent long-term stability for both HER and OER processes driven with j100 for 100 h and j500 for 24 h. In addition, the cell voltage assembled with NiCoSxSey/NCF is only 1.84 V at j500 in 1 M KOH, and the I-t characteristic shows a low decay (<3 %) after 50 h operation at j100. The ab-initio simulations reveal that the CoS2-CoSe2, Ni3S2-Ni3Se2 and CoS2-Ni3Se2 interfaces are the active sites for HER.