Revisited Catalytic Hydrogen Evolution Reaction Mechanism of MoS2

Abstract: MoS2 has long been considered a promising catalyst for hydrogen production. At present, there are many strategies to further improve its catalytic performance, such as edge engineering, defect engineering, phase engineering, and so on. However, at present, there is still a great deal of controversy about the mechanism of MoS2 catalytic hydrogen production. For example, it is generally believed that the base plane of MoS2 is inert; however, it has been reported that the inert base plane can undergo a transient … Show more

“…Surface texture design was recognized as the preliminary improvement to the microstructure of the electrode surfaces. Some researchers have dedicated their efforts to constructing 3D structures on electrode surfaces, aiming to improve the wettability among gas/solid/liquid phases and accelerate the evolution and transport of bubbles on the electrodes. − …”

Bubble Management for Electrolytic Water Splitting by Surface Engineering: A Review

“…Surface texture design was recognized as the preliminary improvement to the microstructure of the electrode surfaces. Some researchers have dedicated their efforts to constructing 3D structures on electrode surfaces, aiming to improve the wettability among gas/solid/liquid phases and accelerate the evolution and transport of bubbles on the electrodes. − …”

Bubble Management for Electrolytic Water Splitting by Surface Engineering: A Review