Composition-Tuned (MoWV)Se 2 Ternary Alloy Nanosheets as Excellent Hydrogen Evolution Reaction Electrocatalysts.
Ik Seon KwonSeung Jae LeeJu Yeon KimIn Hye KwakGetasew Mulualem ZewdieSeung Jo YooJin-Gyu KimKug-Seung LeeJeunghee ParkHong Seok KangPublished in: ACS nano (2023)
Ternary alloying of transition metal dichalcogenides (TMDs) has the potential for altering the electronic structure of materials to suit electrochemical applications. Herein, we synthesized (MoWV)Se 2 nanosheets at various compositions via a colloidal reaction. The mole fraction of V atoms ( x V ) was successfully increased up to 0.8, producing a metallic phase that is highly durable against hydration. Furthermore, we synthesized (MoW)Se 2 nanosheets over the entire composition range. The atomic mixing of the ternary alloys is more random than that of the constitutional binary alloys, as supported by first-principles calculations. Compared to binary alloying, ternary alloying more effectively enhanced the electrocatalytic activity for acidic hydrogen evolution reaction (HER). The HER performance increased upon increasing x V to 0.44, and thereafter, it declined at higher x V primarily owing to surface oxidation. The analysis of Gibbs free energy for H adsorption revealed that ternary alloying strongly activates the basal plane for the HER. VSe 2 contains numerous sites favorable for H adsorption, facilitating the composition-dependent HER. These results provide a pioneering strategy for designing multicomponent TMD catalysts that maximize the advantages of each component.