High-performance alkaline hybrid zinc batteries with heterostructure nickel/cobalt sulfide

Despite their high energy density, great safety, and environmental friendliness, zinc-air batteries (ZABs) has insufficient energy efficiency and low discharge voltage for wide application. Constructing alkaline hybrid zinc battery (AHZB) by coupling ZABs with alkaline zinc-transition metal batteries can effectively address these issues. Herein, we report a nickel/cobalt sulfide heterostructure supported on nickel foam (Ni3S4@CoSx-NF), which exhibits excellent redox properties and high bifunctional oxygen catalytic activities. The aqueous AHZB with Ni3S4@CoSx-NF cathode demonstrates unprecedented energy efficiency (similar to 90%), high discharge voltage (1.70 V at 50 mA cm(-2)), and outstanding cycling stability. The evolution of valence states and phases of key materials observed through ex-situ characterizations suggests that Ni4+ and Co4+ contribute to the high redox activity. The solid-state AHZB with polyacrylamide-based gel electrolyte and Ni3S4@CoSx-NF cathode shows high power density over 100 mW cm(-2), preceding that of self-supported solid ZAB. Importantly, it can operate at temperatures between 40 and 80 degrees C.