The dependence of electrocatalytic HER activity of decorated MoS2 with Cu nanoclusters

Abstract

Molybdenum disulfide is a potential electrocatalytic material for water splitting with excellent stability and durability. Here, the electrocatalytic hydrogen evolution reaction performance of Molybdenum disulfide nanosheets decorated with copper nanoclusters was investigated. The Cu@MoS2–1:10 exhibited remarkable hydrogen evolution reaction activity, with an overpotential as low as 150 mV under acidic conditions. The First-principles calculations further confirmed the superior electrocatalytic performance of Cu@MoS2, with a minimum hydrogen adsorption free energy of -0.10 eV. The improved electrocatalytic activity of Cu@MoS2 arises from the accelerated charge migration at the interface. And the addition of Cu increases the number of active sites on the surface of MoS2. This work could offer insights into the advancement of additional non-precious metals and transition metal dichalcogenides.