Cluster expansions and Monte Carlo simulations provide insights into the mechanisms for the hydrogen evolution reaction and the effects of potential and surface coverage on Pt(111) and model transition metal phosphide surfaces.
The degradation of amorphous cobalt phosphides (CoPx) as electrocatalyst for hydrogen evolution reaction (HER) is studied in the discontinuous operation of alkaline water electrolysis cells (AWEs). Although amorphous CoPx shows...
Correction for ‘Recent advances in transition metal phosphide nanomaterials: synthesis and applications in hydrogen evolution reaction’ by Yanmei Shi et al., Chem. Soc. Rev., 2016, DOI: 10.1039/c5cs00434a.
Transition metal phosphide (TMPs), as environmentally friendly non-noble metal cocatalyst, play a key role in promoting photocatalytic hydrogen evolution. In this work, three metal phosphating compounds (NiCoP, Ni2P, and Co2P)...
The effect of the crystal structure of ordered transition-metal phosphide catalysts on the hydrogen-evolution reaction is investigated using single crystals of iron-phosphide (FeP) and monoclinic nickel-diphosphide (m-NiP2).
This tutorial review provides an overview of recent development of TMP nanomaterials as catalysts for hydrogen generation with high activity and stability.
Transition metal phosphide (CoP,Ni2P,Cu3P)/CdS hybrid catalysts were applied to heterogeneous photocatalytic hydrogen evolution and exhibited splendid photocatalytic activity with a H2-production rate of up to 254 000 μmol h−1 g−1 and excellent stability in aqueous acidic media.