Catalytic hydrogen production has emerged as a cornerstone in the pursuit of sustainable energy solutions. Central to this endeavour is the effective management of electron transfer processes that ...

• Bimetallic single-atom catalysts (bimSACs) have garnered signifcant attention for leveraging the synergistic functions of the two metal active centers. • This review focuses on the advancements in ...

Hetero-interfaces have the potential to not only address the drawbacks of single-phase materials but also to develop new capabilities for water-splitting applications. A paper accepted for publication ...

Single-atom catalysts (SACs) have exhibited outstanding performance in electrocatalytic water splitting due to their maximal atomic utilization and excellent reaction kinetics. However, their loading ...

Water splitting is a fundamental process in green energy, mainly for sustainable hydrogen production through electrolysis. A key step in this process is the OER, which is often limited due to slow ...

Electro- and photocatalytic materials are central to enabling sustainable energy conversion processes such as water splitting, CO 2 reduction, oxygen reduction, and ammonia synthesis. These reactions ...