Despite intense research, the relation of structure-activity for single-atom catalysts (SACs) still bedazzles researchers, since diversified configurations of active sites would bring about difficulty in structural identification and theoretical simulations. Here, recent results on the applications of SACs ...
has created a new strategy to resolve the limitations of single-atom catalysts and increase their potential for effective application, according to the University of Science and Technology of China (USTC).
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...
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. The catalysis comm...
catalysts via a detailed scrutiny of CO oxidation pathways for single-atom and few-atom cluster catalysis, which constitute a subset of the emerging technology of atomically dispersed and nanostructured oxide-supported catalysts. We see a recent effort towards achieving high-performance catalysts via ...
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(...
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-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, carbon supports, electrodes, electrocatalysis, Zn- and Li-air batteries INTRODUCTION The global shift away from fossil- and carbon-based energy has promoted the development of green and renewable energy conversion and storage systems, such as rechargeable batteries based on a me...
Construction of bifunctional single-atom catalysts on the optimized β-Mo₂C surface for highly selective hydrogenation of CO₂ into ethanol Construction of bifunctional single-atom catalysts on the…