single-atom site catalystsenvironmental catalysisvolatile organic compoundsCO catalytic oxidationNO selective reductionhydrocarbon oxidationIn recent decades, the environmental protection and long-term sustainability have become the focus of attention due to the increasing pollution generated by the intense ...
Regulating the site density of single-atom catalysts (SACs) promotes the potential to remarkably improve the performance of electrocatalysis, such as the oxygen reduction reaction (ORR). However, the catalytic behaviour governed by individual and interacting sites is particularly elusive and has yet to...
The control of single metal atomic sites has been extensively studied in the field of single atom catalysts. By contrast, the precise control of the mesoporous structure in the matrix material, which directly correlates with mass diffusions and may play a dominant role in delivering industrially rel...
Single-atom catalystVehicle emission controlCO oxidationHydrocarbon oxidationSelective catalytic reductionSingle゛tom catalysts (SACs) with isolated metal centers are attracting great research interest because of their maximized metal utilization rates and unique structures. In the last decade, significant ...
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-AtomCatalystsfortheElectrocatalyticReductionof NitrogentoAmmoniaunderAmbientConditions YuanQiu, [a] XianyunPeng, [a] FangLü, [a] YuyingMi, [a] LongchaoZhuo, [b] JunqiangRen, [c] XijunLiu,* [a] andJunLuo [a] Chem.AsianJ.2019,14,2770–27792019Wiley-VCHVerlagGmbH&Co.KGaA,Weinheim...
Single-atom catalysts (SACs) have received boosting attention due to their high atom utilization and incredible activities in a wide range of catalytic processes. Numerous SACs have been investigated for CO oxidation both experimentally and theoretically, including noble-metal catalysts (Pt, Au, Pd, ...
All the important single-atom catalysts (SACs) synthetic strategies, such as wet-chemistry method, atomic layer deposition, metal–organic framework-derived method, electrodeposition, high-temperature atom trapping from bulk particles, and vacancies/defects immobilized strategy, have been summarized and dis...
When imaging single atom catalysts, it is important to relate the observed concentration to the bulk elemental analysis. Since catalysis is a surface phenomenon, the single atoms of interest are all located on the surface of the catalyst support. A recent example of this analysis can be seen fr...
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 research community in this field. ...