Single-atomheterogeneous catalysts(SACs)incorporating isolated metal centers on solid supports demonstrate promise for improving the sustainability of commercial organic transformations.They avoid the issues of metal recovery and reuse associatedwith conventionally applied organometallic preciousmetal complexes while...
single‐atom catalyststhermally stable materialsSingle゛tom catalysts (SACs) have attracted extensive attention in fields related to energy, environment, and material sciences because of the high atom efficiency and the unique properties of these materials. Many approaches have hitherto been successfully ...
Single-atom catalysis has arguably become the most active new frontier in heterogeneous catalysis. Aided by recent advances in practical synthetic methodologies, characterization techniques and computational modelling, we now have a large number of single-atom catalysts (SACs) that exhibit distinctive perfo...
heterogeneous catalysts dominate large- scale industrial processes.Heterogeneous catalysis usually occurs at the sur-face of a solid catalyst, which ideally has a high surface area to volume ratio. For example, smaller metal par-ticles have
Single atom catalysts hold the potential to significantly impact the chemical and energy industrial sectors. This editorial introduces the state of the field along with a collection of Articles and Comments that encapsulate the ongoing efforts of the res
Single-atom catalyst, which makes exceptionally efficient use of expensive noble metals and can bring out unique properties, is a new frontier in heterogeneous catalysis, a commonly used catalytic reaction in industry. However, applications of single-atom catalysts are usually compromised by limited cat...
Single-atom catalysis: Bridging the homo- and heterogeneous catalysis Single-atom catalysis, the catalysis by single-atom catalysts(SACs), has attracted considerable attention in recent years as a new frontier in the heterogeneous catalysis field. SACs have the advantages of both homogeneous catalysts(...
Single-atom catalysis has arguably become the most active new frontier in heterogeneous catalysis. Aided by recent advances in practical synthetic methodologies, characterization techniques and computational modelling, we now have a large number of single-atom catalysts (SACs) that exhibit distinctive perfo...
A systematic investigation of electronic configuration and excitation properties is extremely urgent for establishing a guideline to boost H2O2 production with metal single-atom photocatalysts (M-SAPCs). Herein, a series of metal-ion incorporated M-SAPCs was prepared, isolating of three transition ...
Single atom catalysts (SACs) that integrate the merits of homogeneous and heterogeneous catalysts have been attracting considerable attention in recent years. The individual metal atoms of SACs can be stabilized on supports through various unsaturated chemical sites or space confinement for achieving the ...