A Superaerophobic Bimetallic Selenides Heterostructure for Efficient Industrial-Level Oxygen Evolution at Ultra-High Current Densities

Highlights A superaerophobic heterostructured nanowrinkles of bimetallic selenides is developed. The 3D heterostructure exhibits excellent activity and stability towards oxygen evolution reaction (OER) in base. Cost-effective and stable electrocatalysts with ultra-high current densities for electrochemical oxygen evolution reaction (OER) are critical to the energy crisis and environmental pollution. Herein, we report a superaerophobic three dimensional (3D) heterostructured nanowrinkles of bimetallic selenides consisting of crystalline NiSe 2 and NiFe 2 Se 4 grown on NiFe alloy (NiSe 2 /NiFe 2 Se 4 @NiFe) prepared by a thermal selenization procedure. In this unique 3D heterostructure, numerous nanowrinkles of NiSe 2 /NiFe 2 Se 4 hybrid with a thickness of ~ 100 nm are grown on NiFe alloy in a uniform manner. Profiting by the large active surface area and high electronic conductivity, the superaerophobic NiSe 2 /NiFe 2 Se 4 @NiFe heterostructure exhibits excellent electrocatalytic activity and durability towards OER in alkaline media, outputting the low potentials of 1.53 and 1.54 V to achieve ultra-high current densities of 500 and 1000 mA cm −2 , respectively, which is among the most active Ni/Fe-based selenides, and even superior to the benchmark Ir/C catalyst. The in-situ derived FeOOH and NiOOH species from NiSe 2 /NiFe 2 Se 4 @NiFe are deemed to be efficient active sites for OER.