Self-supported nickel phosphosulphide nanosheets for highly efficient and stable overall water splitting†
Abstract
Self-supported nickel phosphosulfide (NiP0.62S0.38) nanosheets are fabricated by convenient one-step programming annealing in phosphorus and sulfur gas in series. The as-prepared NiP0.62S0.38 only needs overpotentials of 52 and 240 mV to achieve a current density of 10 mA cm−2 (j10) in alkaline media for HER and OER, respectively. The DFT calculation results reveal that the electronegative phosphosulfide species shift ΔGH* to the thermo-neutral position and achieve a balance of hydrogen adsorption and detachment on nickel sites. The excellent OER activity of NiP0.62S0.38 is attributed to the formation of NiP0.62S0.38/NiOOH heterojunctions during water oxidation. Two identical NiP0.62S0.38 electrodes as anode and cathode are utilized to construct an alkaline electrolyzer, which delivers a j10 at a small potential of 1.52 V, and can stably sustain the j10 for 200 h, rivalling the integrated state-of-the-art Pt/C and IrO2.