posted on 2023-12-08, 17:34authored byQichang Li, Jinxiao Gao, Xingchao Zang, Chunlong Dai, Huadong Zhang, Liantao Xin, Wei Jin, Weiping Xiao, Guangrui Xu, Zexing Wu, Lei Wang
Transition
metal phosphides are ideal inexpensive electrocatalysts
for water-splitting, but the catalytic activity still falls behind
that of noble metal catalysts. Therefore, developing valid strategies
to boost the electrocatalytic activity is urgent to promote large-scale
applications. Herein, a microwave combustion strategy (20 s) is applied
to synthesize N-doped CoP/Ni2P heterojunctions (N-CoP/Ni2P) with porous structure. The porous structure expands the
specific surface area and accelerates the mass transport efficiency.
Importantly, the pyrrolic N/pyridinic N content is adjusted by changing
the amount of urea during the synthesis process and then optimizing
the adsorption/desorption capacity for H*/OH* to enhance the catalyst
activity. Then, the synthesized N-CoP/Ni2P exhibits small
overpotentials of 111 and 133 mV for HER in acidic and alkaline electrolytes
and 290 mV for OER in alkaline electrolytes. This work provides an
original and efficient approach to the synthesis of porous metal phosphides.