Role of Adsorbed H, C, O, and CO on the Atomic Structure of Free and MgO(100)-Supported Ir-4 Clusters: An ab Initio Study

We applied density functional theory based on ultrasoft pseudopotentials to study the structural properties of Ir-4 clusters both in the gas phase and adsorbed on a MgO(100) surface. To resolve the discrepancy between experimental data which suggest a tetrahedral structure for Ir-4 and theoretical results which show a strong preference for the square isomer, we investigated the effect of several adsorbates on the equilibrium atomic structure of the clusters. Calculated binding energies of a single H, C, or O atom, as well as one CO or OH molecule, to three stable Ir-4 isomers indicate that C or CO adsorption significantly influences the relative stability of Ir-4 isomers. For MgO(100)-supported Ir-4, atomic carbon is able to change the isomer preference from the square to the tetrahedral geometry.

Role of Adsorbed H, C, O, and CO on the Atomic Structure of Free and MgO(100)-Supported Ir-4 Clusters: An ab Initio Study

Modeling and characterization of the nucleation and growth of carbon nanostructures in physical synthesis

Unified theory of atom-centered representations and message-passing machine-learning schemes

Nuclear Excitation by Free Muon Capture

Modeling and characterization of the nucleation and growth of carbon nanostructures in physical synthesis

Nuclear Excitation by Free Muon Capture

Unified theory of atom-centered representations and message-passing machine-learning schemes