Vacancy defect engineering has been well leveraged to flexibly shape comprehensive
physicochemical properties of diverse catalysts. In particular, growing research effort has …

Increasing environmental pollution and shortage of conventional fossil fuels have made it
urgent to develop renewable and clean energy sources. Electrocatalytic water splitting, with …

Two-dimensional MoSSe nanoplates demonstrate low internal resistance and outstanding
reduction potential, while Bi 2 WO 6 nanoparticles exhibit zero-dimensional appearance and …

As a clean, efficient, and sustainable energy, hydrogen is expected to replace traditional
fossil energy. A series of studies focusing on morphology regulation, surface modification …

Although lithium–sulfur batteries (LSBs) possess a high theoretical specific capacity and
energy density, the inherent problems including sluggish sulfur conversion kinetics and the …

To meet the demanding requirements for clean energy production, the need to develop
advanced electrocatalysts for efficiently catalysing the water splitting reactions attracts a …

Researchers have recently developed various surface engineering approaches to modify
environmental catalysts and improve their catalytic activity. Defect engineering has proved to …

Single-atom catalysts have risen significant attention in the realm of green electrocatalytic
energy conversion to address energy and environmental sustainability challenges …

Among the vast field of 2D materials, transition metal dichalcogenides (TMDs) have
emerged as promising materials for electrocatalysis. Many of them, such as MoS 2, were …

The adsorption of single H atom and H 2 on blue phosphorene monolayer with and without
Pt atom adsorbed on the surface has been investigated using density functional theory with …