Mo 2 C promoted electrocatalysis of the Pt/Mo 2 C (C) heterostructure for a superior hydrogen evolution reaction

Constructing a unique electrochemical interface to enhance the catalytic capacity of Pt-based catalysts is indispensable for wider application of the hydrogen evolution reaction (HER). Herein, platinum-analogous molybdenum carbide (Mo C) was combined with a lower content of Pt to construct the Pt/Mo C (C) heterostructure a solid-phase method, using ammonium molybdate as the precursor. Vulcan-C served as a support to promote the distribution of the Pt and Mo C heterostructure, and cooperative effects between Pt and the Mo C heterostructure contributed to the significantly improved catalytic capacity of Pt. The obtained Pt/Mo C (C) exhibits superior HER activity and enhanced long-term durability in the acidic medium, with a low overpotential of 38 mV at 10 mA cm and a low Tafel slope of 24 mV dec . In particular, a drastically enhanced amount of H production can be achieved (6837.28 mmol h g ). This facile approach not only provides a new pathway for constructing novel heterostructures but also gives an insight into the design of cost-effective Pt-based materials for an efficient HER.