Single-atom-alloy catalysts (SAACs) have recently become a frontier in catalysis research. Simultaneous optimization of reactants' facile dissociation and a balanced strength of intermediates' binding make them highly efficient catalysts for several industrially important reactions. However, discovery of ...
Single atom alloy (SAA) catalysts, with their maximized noble metal utilization efficiency, specific geometric, and electronic structure, provide unique active centers and result in outstanding catalytic properties that breaks the intrinsic linear scaling relationships27,28,29,30,31. The doped single a...
Pt-based single atom alloy catalysts (SAAC) with water dissociation sites have been demonstrated as excellent alkaline HER catalysts. However, the regulation of their activity and stability at the atomic scale is still a great challenge. Herein, the kinetic and stability issues are successfully ...
Single Atom Alloy Pd-Ag Catalysts for Acrolein Hydrogenation The selectivity and activity Ag catalysts for the selective hydrogenation of acrolein were improved by the addition of dilute amounts of Pd. Isolated Pd at... RJ Meyer - 《North American Catalysis Society Meeting》 被引量: 0发表: 2013...
Single-atom catalysisholds significant potential as a disruptive chemical technology. The production of a number of key chemical products, including solar hydrogen, ammonia, andhydrogen peroxide, could be shortly reshaped by the commercialization of new single-atom catalysts and the related new decentral...
Single-atom photocatalysts exhibit outstanding performance in energy and environmental photocatalysis, due to their exceptional capabilities in enhancing l... F Chen,P Jiao,C Zhao - 《Catalysis Letters》 被引量: 0发表: 2024年 A single atom photocatalyst co-doped with potassium and gallium for enhan...
Single atom alloys (SAAs) catalysts become potential to provide excellent activity, selectivity, and stability toward the selective dehydrogenation of light alkanes by activating the desired C–H bond, however, the ideal metallic combination to best catalyze C 2 H 6 dehydrogenation is unclear yet. ...
Thiolate‐Protected Single‐Atom Alloy Nanoclusters: Correlation between Electronic Properties and Catalytic Activitiescatalytic activitieselectronic propertiesnanoclusterssingle‐atom alloysthiolatesDue to their interesting chemical and optical properties, metal nanoclusters are used in various catalytic reactions and...
Boosting Pd-catalysis for electrochemical CO2 reduction to CO on Bi-Pd single atom alloy nanodendrites - ScienceDirect Pd is a catalyst for electrochemical CO2 reduction to CO but often disturbed by H2 and formate formation at low overpotentials due to its strong affinity t... HXA B,YW C,XW...
Single-atom alloys have recently emerged as highly active and selective alloy catalysts. Unlike pure metals, single-atom alloys escape the well-established conceptual framework developed nearly three decades ago for predicting catalytic performance. Alth