TY - GEN A1 - Menezes, Prashanth W. A1 - Indra, Arindam A1 - Das, Chittaranjan A1 - Walter, Carsten A1 - Göbel, Caren A1 - Gutkin, Vitaly A1 - Schmeißer, Dieter A1 - Driess, Matthias T1 - Uncovering the Nature of Active Species of Nickel Phosphide Catalysts in High-Performance Electrochemical Overall Water Splitting T2 - ACS Catalysis N2 - A systematic structural elucidation of the near-surface active species of the two remarkably active nickel phosphides Ni12P5 and Ni2P on the basis of extensive analytical, microscopic, and spectroscopic investigations is reported. The latter can serve as complementary efficient electrocatalysts in the hydrogen (HER) versus oxygen evolution reaction (OER) in alkaline media. In the OER Ni12P5 shows enhanced performance over Ni2P due to the higher concentration of nickel in this phase, which enables the formation of an amorphous NiOOH/Ni(OH)2 shell on a modified multiphase with a disordered phosphide/phosphite core. The situation is completely reversed in the HER, where Ni2P displayed a significant improvement in electrocatalytic activity over Ni12P5 owing to a larger concentration of phosphide/phosphate species in the shell. Moreover, the efficiently combined use of the two nickel phosphide phases deposited on nickel foam in overall electrocatalytic water splitting is demonstrated by a strikingly low cell voltage and high stability with pronounced current density, and these catalysts could be an apt choice for applications in commercial alkaline water electrolysis. KW - overall water splitting KW - electrocatalysis KW - nickel phosphide KW - structural rearrangement KW - surface structure Y1 - 2017 U6 - https://doi.org/10.1021/acscatal.6b02666 SN - 2155-5435 VL - 7 IS - 1 SP - 103 EP - 109 ER -