Constructing high-entropy nanoalloy by molten salt electroreduction for efficient bifunctional oxygen electrocatalysis

Abstract

High-entropy nanoalloy is reported to be a highly efficient and stable bifunctional oxygen catalyst, which important for the sustainable application of rechargeable zinc-air batteries. However, phase separation is a common issue in the preparation of high-entropy nanoalloy. Herein, the high-entropy nanoalloy was successfully constructed using molten salt electroreduction method. The bifunctional oxygen overpotential (ΔE) of the catalyst is as low as 0.72V. The zinc-air battery assembled with this catalyst exhibits exceptional peak power density (216.7 mW cm^-2) and specific capacity (784.4 mAh g^-1), with a cycling stability exceeding 1200 hours, among the best values reported to date in the field.