▎ 摘　　要

Overall urea electrolysis has favorable thermodynamic properties and can complement traditional water splitting by simultaneously purifying urea-rich waste streams. However, the kinetics of the reaction is slow and more efficient catalysts are required. In this work, we describe a facile way to fabricate amorphous nickel phosphides on graphene nanosheets (a-Ni2P/G), which shows high efficient performance for overall urea electrolysis. The a-Ni2P/G catalyst has abundant surface area for abundant catalytic active sites and high proportion of Ni3+ active sites, realizing a superior intrinsic activity for both hydrogen evolution reaction (HER) and urea oxidation reaction (UOR). Impressively, the a-Ni2P/G catalyst requires only much lower potentials of 1.28 V and - 0.1 V for UOR and HER at 10 mA cm(-2). The assembled a-Ni2P/G parallel to a-Ni2P/G electrolyzer needs a small cell voltage of 1.39 V to deliver the current density of 10 mA cm(-2). This work highlights a promising pathway to develop a cost-efficient catalyst for energy-saving H-2 generation combined with waste water purification.