Nickel-Tungsten Nano-Alloying for High-Performance hydrogen Electro-Catalytic oxidation

The efficient and low-cost electro-catalysts towards hydrogen oxidation reaction (HOR) are vitally important to the commercialization of fuel cells, which, however, have been rarely paid attentions. Herein, NiW nano-alloy electro-catalysts (similar to 3 nm) grown in-situ on carbon paper (NiW/CP) have been designed and synthesized by a facile and rapid (in 14 min) electro-deposition method. This alloying strategy greatly enhances the H-2 adsorption energy meanwhile reduces metal-hydrogen bonding strength on the catalyst surface, leading to the substantially lowered hydrogen oxidation energy barrier and consequently the remarkably elevated HOR catalytic activity in H-2-saturated 0.1 M KOH electrolyte (3.26 mA cm(-2) at 0.05 V vs. RHE), which is significantly higher than that of Pt/C electro-catalyst. Especially, NiW/CP shows extraordinarily high stability during 30,000 cycles and outstanding CO tolerance. Furthermore, both thermodynamic and kinetic first-principle calculations demonstrate that the HOR performance of Ni(111) can be largely enhanced by W alloying.

Automated summary

This study successfully designed and synthesized an efficient and low-cost NiW nano-alloy electro-catalyst. The alloy showed high catalytic activity, stability, and CO tolerance in the hydrogen oxidation reaction.