Beniya, A., Higashi, S. Towards dense single-atom catalysts for future automotive applications.Nat Catal2, 590–602 (2019). https://doi.org/10.1038/s41929-019-0282-y Download citation Received27 January 2019 Accepted08 April 2019 Published11 July 2019 ...
Supported and colloidal single-atom catalysts (SACs), which possess excellent catalytic properties, are particularly important in both fundamental studies and practical applications. The progress made in the preparation methods, characterization, catalytic performances and mechanisms of SACs anchored to metal...
Single-atom catalysts with uniform ACSs are favorable for studying the nature of ACSs12,13,14. Wark et al.13reported that a single-atom V1/ZSM-5 catalyst had significant SCR activity, implying the mononuclear active sites, but its activity is much lower than that over V2O5/TiO2with abundant...
Recent progress of dual-atom catalysts on zinc-air batteries 2024, Nano Materials Science Show abstract A Review of the Mechanisms of Single-Atom-Based Advanced Oxidation Processes for the Degradation of Persistent Organic Pollutants in Water Environments 2024, ACS ES and T WaterView full text ...
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-AtomCatalystsfortheElectrocatalyticReductionofNitrogentoAmmoniaunderAmbientConditionsYuanQiu,[a]XianyunPeng,[a]FangLü,[a]YuyingMi,[a]LongchaoZhuo,[b]JunqiangRen,[c]XijunLiu,*[a]andJunLuo[a]Chem.AsianJ.2019,14,2770–2779 2019Wiley-VCHVerlagGmbH&Co.KGaA,Weinheim2770MinireviewDOI:10.1002/...
This review highlights the recent advancements in tailoring local structure and metal﹕upport interaction of single atom catalysts to gain a deeper insight into the structure﹑erformance relationship. The challenges and opportunities in this field are further discussed. 展开 ...
We propose the great potential of single atom catalysts (SACs) for CO2electroreduction with high activity and selectivity predictions over a competitive H2evolution reaction. We find the lack of an atomic ensemble for adsorbate binding and unique electronic structure of the single atom catalysts play ...
Single-atom catalysts represent a unique catalytic system with high atomic utilization and tunable reaction pathway. Despite current successes in their optimization and tailoring through structural and synthetic innovations, there is a lack of dynamic mo
Metal−N–C single-atom catalysts (SACs) have emerged as alternatives to platinum for catalyzing the otherwise sluggish oxygen reduction reaction (ORR) [1]. Fe–N–C SACs rank among the most promising candidates [2], of which the active center is proposed as a carbon-hosted FeN4 moiety ...