A multireference configuration interaction study of CuB and CuAl molecular constants and photoionization spectra

Ferrão, Luiz F. A.; Spada, Rene F. K.; Roberto‐Neto, Orlando; Machado, Francisco B. C.

doi:10.1063/1.4822162

Cited by 4 publications

(3 citation statements)

References 32 publications

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“…The BDE of NiB has been measured to be 3.431(4) eV, so an assignment of 3.780(19) eV to the CuB BDE would violate the established D 0 (NiX) ≫ D 0 (CuX) trend for 2p ligands. Moreover, high-level MRCI+Q calculations predict D 0 (CuB) = 2.10 or 2.18 eV. , In the current work, CCSD(T)/CBS calculations give D 0 (CuB) = 2.26 eV (see Supporting Information, Table S1). All of these are far less than the 3.780(19) eV predissociation threshold of Figure .…”

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confidence: 50%

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CrN, CuB, and AuB: A Tale of Two Dissociation Limits

Merriles

Morse

2023

J. Phys. Chem. Lett.

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Predissociation thresholds corresponding to dissociation at ground state separated atom limits (SALs) have been recorded in this group for more than 100 d-and fblock metal-containing molecules. The metal atom electronic degeneracies in these molecules generate a dense manifold of electronic states that allow high-lying vibronic levels to couple to pathways leading to dissociation. However, CrN, CuB, and AuB fail to dissociate at their ground SAL. Instead, the molecules remain bound at energies that far surpass their bond dissociation energies (BDEs), and their bonds break only when excited at or above an excited SAL. Sharp predissociation thresholds at excited SALs nevertheless allowed BDEs to be derived: D 0 (CrN): 3.941( 22) eV; D 0 (CuB): 2.26(15) eV; D 0 (Au 11 B): 3.724(3) eV. A previous measurement of D 0 (AlCr) is re-evaluated as dissociating to a higher energy limit, giving a revised value of D 0 (AlCr) = 1.32(2) eV. A discussion of this physical behavior is presented.

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“…Moreover, high-level MRCI+Q calculations predict D 0 (CuB) = 2.10 or 2.18 eV. 35,36 In the current work, CCSD(T)/CBS calculations give D 0 (CuB) = 2.26 eV (see Supporting Information, Table S1). All of these are far less than the 3.780(19) eV predissociation threshold of Figure 2.…”

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confidence: 56%

CrN, CuB, and AuB: A Tale of Two Dissociation Limits

Merriles

Morse

2023

J. Phys. Chem. Lett.

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“…As summarized recently by us [5], the 3d transition metal borides have been studied by quantum chemical methods [6][7][8][9]. Experimentally, the dissociation energies of ScB and TiB [10] were obtained and the electronic transitions on CoB were explored [11].…”

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confidence: 99%

The low-lying electronic states of ReB

2014

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The ground and low-lying electronic states of ReB were studied at the CASPT2//CASSCF level (multiconfigurational second-order perturbation theory) and quadruple-ζ ANO-RCC basis sets. Spectroscopic constants, potential energy curves, wavefunctions, and Mulliken population analysis are given. The ground state of ReB is of X(5)Σ(+) symmetry (R e = 1.817 Å, ω e = .909 cm(-1), and μ = 2.87 D), giving rise to a Ω = 0(+) ground state after including spin-orbit coupling.

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Wavefunction theory and density functional theory analysis of ground and excited electronic states of TaB and WB

Ariyarathna

2024

Phys. Chem. Chem. Phys.

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A multireference configuration interaction study of CuB and CuAl molecular constants and photoionization spectra

Cited by 4 publications

References 32 publications

CrN, CuB, and AuB: A Tale of Two Dissociation Limits

CrN, CuB, and AuB: A Tale of Two Dissociation Limits

The low-lying electronic states of ReB

Wavefunction theory and density functional theory analysis of ground and excited electronic states of TaB and WB

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