Issue 45, 2024

On the ground and excited electronic states of LaCO and AcCO

Abstract

High-level ab initio electronic structure analysis of correlated lanthanide- and actinide-based species is laborious to perform and consequently limited in the literature. In the present work, the ground and electronically excited states of LaCO and AcCO molecules were explored utilizing the multireference configuration interaction (MRCI), Davidson corrected MRCI (MRCI+Q), and coupled cluster singles doubles and perturbative triples [CCSD(T)] quantum chemical tools conjoined with correlation consistent triple-ζ and quadruple-ζ quality all-electron Douglas–Kroll (DK) basis sets. The full potential energy curves (PECs), dissociation energies (Des), excitation energies (Tes), bond lengths (res), harmonic vibrational frequencies (ωes), and chemical bonding patterns of low-lying electronic states of LaCO and AcCO are introduced. The ground electronic state of LaCO is a 4Σ (1σ12) which is a product of the reaction between excited La(4F) versus CO(X1Σ+), whereas the ground state of AcCO is a 12Π (1σ21) deriving from ground state fragments Ac(2D) + CO(X1Σ+). The spin–orbit ground states of LaCO (14Σ3/2) and AcCO (12Π1/2) bear ∼13 and 5 kcal mol−1D0 values, respectively. At the MRCI level, the spin–orbit curves, the spin–orbit mixing, and the Tes of spin–orbit states of LaCO and AcCO were also analyzed. Lastly, the density functional theory (DFT) calculations were performed applying 16 exchange–correlation functionals that span three rungs of “Jacob's ladder” of density functional approximations (DFAs) to assess DFT errors associated on the De and ionization energy (IE) of LaCO.

Graphical abstract: On the ground and excited electronic states of LaCO and AcCO

Supplementary files

Article information

Article type
Paper
Submitted
07 Aug 2024
Accepted
25 Oct 2024
First published
25 Oct 2024
This article is Open Access
Creative Commons BY-NC license

Phys. Chem. Chem. Phys., 2024,26, 28337-28348

On the ground and excited electronic states of LaCO and AcCO

I. R. Ariyarathna, Phys. Chem. Chem. Phys., 2024, 26, 28337 DOI: 10.1039/D4CP03132F

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