Abstract
Herein, a rational design of 'cobalt/cobalt oxide/cobalt molybdate/nickel foam' multi-hierarchical tandem type electrocatalyst was achieved, where in situ reduced Co and CoO nanoparticles were dispersed uniformly and stabilized by CoMoO3 cuboids. This novel tandem type structure enables strong hydroxyl adsorption on CoO and moderated hydrogen adsorption on Co and therefore promotes the dissociation of water and the recombination of hydrogen intermediates into molecular hydrogen, respectively, and both act synergistically to catalyze the HER reaction. As a result, the current densities were up to 1.3 A cm~(-2) at only 173 mV overpotential in 1.0M KOH and 379 mV in 1.0 M PBS solution, respectively. The high rate H2 production of 4.35 ml min~(-1) at - 1.18 V (vs. SCE) and the outstanding performance of 10 A lasting for more than 800 h in a MEA eleetrolyzer both indicate the prospect for the usage in practical.
NSTL