The defect engineering of low-dimensional nanostructured materials has led to increased
scientific efforts owing to their high efficiency concerning high-performance electrocatalysts …

Two-dimensional inorganic nanosheets have received prime attention because of their
intriguing physicochemical properties and diverse functionalities. The reactivity and …

Efficient catalysts with minimal content of catalytically active noble metals are essential for
the transition to the clean hydrogen economy. Catalyst supports that can immobilize and …

Metal nanoclusters (MNCs), with size between metal nanoparticle (NPs) and atom, have
aroused increasing interests for their unusual electronic structures, physical and chemical …

The hybridization with conductive nanostructures has attracted intense research interest
because of its high efficiency in the exploration of efficient energy-functional materials. In this …

The defect engineering of inorganic solids has received significant attention because of its
high efficacy in optimizing energy‐related functionalities. Consequently, this approach is …

Interface structures have received significant attention because of their profound influence
on the catalytic activities of nanostructured materials. Although energy-functional hybrid …

High-performance oxygen electrocatalysts have attracted tremendous research attention
because of their crucial roles in diverse renewable energy technologies such as metal …

Conductive 2D inorganic nanosheets have attracted significant research attention owing to
their outstanding electrical and mechanical properties and diverse functionalities as …

Exsolution is an effective method for synthesizing robust nanostructured metal‐based
functional materials. However, no studies have investigated the exsolution of metal …