Up to date, the single-atom catalysts (SACs) have provided a sustainable solution for
mitigating the energy crisis and improving environmental quality. The enhanced efficiency …

Single-atom catalysts, characterized by individual metal atoms as active centers, have
emerged as promising candidates owing to their remarkable catalytic efficiency, maximum …

The oxygen evolution reaction (OER), characterized by a four‐electron transfer kinetic
process, represents a significant bottleneck in improving the efficiency of hydrogen …

Graphitic carbon nitride (g-C3N4) has gained considerable attention as a promising
photocatalyst for hydrogen production through water splitting. However, its catalytic …

Both hydrogen (H2) and copper ions (Cu+) can be used as anti‐cancer treatments.
However, the continuous generation of H2 molecules and Cu+ in specific sites of tumors is …

Single‐atom catalysis is a field of paramount importance in contemporary science due to its
exceptional ability to combine the domains of homogeneous and heterogeneous catalysis …

Graphitic carbon nitride (g‐C3N4) assisted photocatalytic production of hydrogen peroxide
(H2O2 has already attracted the interest of many researchers due to its environmental …

Considering the current energy scenario, it is of great importance to design and develop
innovative, economically feasible electrocatalysts for the various energy applications. The …

When illuminated by light, different electron transitions occur within the energy levels due to
the unique 4f energy level structure of rare earth elements. If rare earth elements are …

The coexistence of multi-component active sites like single-atom sites, diatomic sites (DAS)
and nanoclusters is shown to result in superior performances in the hydrogen evolution …