Journal of Power Sources | 2021
Cobalt-nanoparticle impregnated nitrogen-doped porous carbon derived from Schiff-base polymer as excellent bifunctional oxygen electrocatalysts for rechargeable zinc-air batteries
Abstract
Abstract Designing transition metal and nitrogen co-doped carbon as efficient oxygen reduction reaction (ORR) and oxygen evolution reaction (OER) bifunctional electrocatalysts is pivotal for rechargeable zinc-air batteries. Herein, a triazine-containing poly(Schiff-base) has been synthesized and used as the nitrogen-rich precursor to prepare Co/Co2N modified nitrogen-doped porous carbon (Co@NC). The formed cobalt nanoparticles are impregnated in the porous carbon matrix with an intermediary layer of catalytically active Co2N. Co@NC exhibits a specific surface area of 2513\xa0m2\xa0g−1 and remarkable bifunctional catalytic activities with a low gap of 0.76\xa0V between ORR and OER overpotentials. The Co@NC-based battery possesses a peak power density of 141.6\xa0mW\xa0cm−2, a specific capacity of 776 mAh g−1 and superior long-term cycling stability, stemmed from the unique impregnated structure with sufficient accessible active sites.