화학공학소재연구정보센터
Applied Surface Science, Vol.481, 1524-1531, 2019
Engineering inner-porous cobalt phosphide nanowire based on controllable phosphating for efficient hydrogen evolution in both acidic and alkaline conditions
Cobalt phosphide has been extensively studied as non-precious metal-based robust electrocatalyst for hydrogen evolution reaction. Innovation breakthrough is still highly desired to enhance its catalytic efficiency. In this work, through rational engineering strategy, a controlled inner-porous CoP nanowire array, which is vertical to the carbon fiber (ip-CoP/CF) was in-situ topotactically synthesized. The resulting ip-CoP/CF demonstrates improved hydrogen evolving efficiency in both acidic and alkaline conditions. At a current density of 10 mA.cm(-2) which with small Tafel slopes of 47 mV.dec(-1) and 93 mV.dec(-1) in acidic and alkaline solution, respectively. Such engineering strategy opens a diverting route to construct controllable inner-porous materials for high efficient electrocatalysts.