posted on 2021-06-30, 19:03authored byTingting Xu, Liu Yang, Jing Li, Natalia Usoltseva, Vladimir An, Xin Jin, Cai Zhang, Xinglai Zhang, Baodan Liu
Developing
non-noble metal catalysts with superior catalytic activity
and excellent durability is critically essential to promote electrochemical
water splitting for hydrogen production. Morphology control as a promising
and effective strategy is widely implemented to change the surface
atomic coordination and thus enhance the intrinsic catalytic performance
of current electrocatalysts. Herein, a series of cobalt phosphide
(CoP) electrocatalysts with tunable morphologies of nanosheets, nanowires,
nanorods, and nanoblocks have been prepared for the enhanced hydrogen
evolution reaction (HER) by only adjusting the amount of ammonium
fluoride (NH4F) in the hydrothermal process. Benefiting
from the large active area, high surface activity, and favorable ion
and gas diffusion channels, the clustered CoP nanorods obtained at
a concentration of 0.15 M NH4F show the best HER performance
with only an overpotential of 71 mV at a current density of 10 mA
cm–2 and a low Tafel slope of 60.75 mV dec–1 in 1 M KOH. After 3000 CV cycles and 24 h durability tests, there
is only a very slight degradation of performance owing to its outstanding
stability and robust substrate adhesion.