AI Article Synopsis
- The stability and reactivity of single-atom catalysts are influenced by their local environment, which is still not fully understood.
- An in-depth study of various metal atoms (like gold and platinum) on a model support (FeO(001)) revealed that their ability to adsorb carbon monoxide (CO) varies significantly from bulk metal surfaces.
- The interaction between the metal and the support alters electronic properties, affecting bond strength, while structural distortions also play a key role in determining CO adsorption energies.
Article Abstract
Understanding how the local environment of a "single-atom" catalyst affects stability and reactivity remains a challenge. We present an in-depth study of copper, silver, gold, nickel, palladium, platinum, rhodium, and iridium species on FeO(001), a model support in which all metals occupy the same twofold-coordinated adsorption site upon deposition at room temperature. Surface science techniques revealed that CO adsorption strength at single metal sites differs from the respective metal surfaces and supported clusters. Charge transfer into the support modifies the d-states of the metal atom and the strength of the metal-CO bond. These effects could strengthen the bond (as for Ag-CO) or weaken it (as for Ni-CO), but CO-induced structural distortions reduce adsorption energies from those expected on the basis of electronic structure alone. The extent of the relaxations depends on the local geometry and could be predicted by analogy to coordination chemistry.
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| http://dx.doi.org/10.1126/science.abe5757 | DOI Listing |
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