Oxide-supported single-atom catalysts are commonly modeled as a metal atom substituting surface cation sites in a low-index surface. Adatoms with dangling bonds will inevitably coordinate molecules from the gas phase, and adsorbates such as water can affect both stability and catalytic activity. Herein, we use scanning tunneling microscopy (STM), noncontact atomic force microscopy (ncAFM), and X-ray photoelectron spectroscopy (XPS) to show that high densities of single Rh adatoms are stabilized on α-FeO(11̅02) in the presence of 2 × 10 mbar of water at room temperature, in marked contrast to the rapid sintering observed under UHV conditions. Annealing to 50 °C in UHV desorbs all water from the substrate leaving only the OH groups coordinated to Rh, and high-resolution ncAFM images provide a direct view into the internal structure. We provide direct evidence of the importance of OH ligands in the stability of single atoms and argue that their presence should be assumed when modeling single-atom catalysis systems.
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| http://dx.doi.org/10.1021/acsenergylett.1c02405 | DOI Listing |
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Article Synopsis
- The study examines how carbon hydride (CH) interacts with a model catalyst, Rh/FeO(001), focusing on various coordination environments of rhodium (Rh) atoms.* -
- Researchers used surface-sensitive techniques and density functional theory (DFT) calculations to analyze how different Rh species react during the thermal evolution of the system.* -
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