Litcius/Paper detail

Reference Vertical Excitation Energies for Transition Metal Compounds

Denis Jacquemin, Fábris Kossoski, Franck Gam, Martial Boggio‐Pasqua, Pierre‐François Loos

2023Journal of Chemical Theory and Computation17 citationsDOIOpen Access PDF

Abstract

2021, 11, e1517], we report vertical transition energies in transition metal compounds. Eleven diatomic molecules with a singlet or doublet ground state containing a fourth-row transition metal (CuCl, CuF, CuH, ScF, ScH, ScO, ScS, TiN, ZnH, ZnO, and ZnS) are considered, and the corresponding excitation energies are computed using high-level coupled-cluster (CC) methods, namely, CC3, CCSDT, CC4, and CCSDTQ, as well as multiconfigurational methods such as CASPT2 and NEVPT2. In many cases, to provide more comprehensive benchmark data, we also provide full configuration interaction estimates computed with the configuration interaction using a perturbative selection made iteratively (CIPSI) method. Based on these calculations, theoretical best estimates of the transition energies are established in both the aug-cc-pVDZ and aug-cc-pVTZ basis sets. This allows us to accurately assess the performance of the CC and multiconfigurational methods for this specific set of challenging transitions. Furthermore, comparisons with experimental data and previous theoretical results are also reported.

Topics & Concepts

ExcitationDiatomic moleculeCoupled clusterTransition metalSinglet stateBasis setAtomic physicsGround stateChemistryConfiguration interactionPhysicsMoleculeComputational chemistryExcited stateDensity functional theoryQuantum mechanicsCatalysisBiochemistryAdvanced Chemical Physics StudiesMachine Learning in Materials ScienceInorganic Fluorides and Related Compounds