Energetics of Third-Row Transition Metal Methylidene Ions MCH2+ (M = La, Hf, Ta, W, Re, Os, Ir, Pt, Au)

Karl K. Irikura; William A. Goddard

doi:10.1021/ja00098a036

Energetics of Third-Row Transition Metal Methylidene Ions MCH₂⁺ (M = La, Hf, Ta, W, Re, Os, Ir, Pt, Au)

Karl K. Irikura
, William A. Goddard

National Institute of Standards and Technology
Beckman Institute

Résultats de recherche: Contribution à un journal › Article › Revue par des pairs

Résumé

High-level ab initio calculations, involving multireference configuration interaction and moderately large basis sets, have been performed to determine the metal-carbon bond energies in the metal methylidene ions MCH₂⁺ of the 5d transition series. On the basis of our calculations and available experimental data, the recommended bond energies D(M⁺-CH₂) are 98 ± 1.5 (La), 104 ± 5 (Hf), 115 ± 5 (Ta), 111 ± 3 (W), 97 ± 4 (Re), 113 ± 3 (Os), 123 ± 5 (Ir), 123 ± 5 (Pt), and 94 ± 2 (Au) kcal/mol. These bond energies are consistent with the experimentally observed reactivity of the metal ions M⁺ with methane. The double-humped pattern is explained in the context of promotion and exchange energies. The arguments are extended in order to estimate metal-methylidyne bond strengths Z)(M⁺-CH).

langue originale	Anglais
Pages (de - à)	8733-8740
Nombre de pages	8
journal	Journal of the American Chemical Society
Volume	116
Numéro de publication	19
Les DOIs	https://doi.org/10.1021/ja00098a036
état	Publié - 1 sept. 1994
Modification externe	Oui

Accès au document

10.1021/ja00098a036

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title = "Energetics of Third-Row Transition Metal Methylidene Ions MCH2+ (M = La, Hf, Ta, W, Re, Os, Ir, Pt, Au)",

abstract = "High-level ab initio calculations, involving multireference configuration interaction and moderately large basis sets, have been performed to determine the metal-carbon bond energies in the metal methylidene ions MCH2+ of the 5d transition series. On the basis of our calculations and available experimental data, the recommended bond energies D(M+-CH2) are 98 ± 1.5 (La), 104 ± 5 (Hf), 115 ± 5 (Ta), 111 ± 3 (W), 97 ± 4 (Re), 113 ± 3 (Os), 123 ± 5 (Ir), 123 ± 5 (Pt), and 94 ± 2 (Au) kcal/mol. These bond energies are consistent with the experimentally observed reactivity of the metal ions M+ with methane. The double-humped pattern is explained in the context of promotion and exchange energies. The arguments are extended in order to estimate metal-methylidyne bond strengths Z)(M+-CH).",

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N2 - High-level ab initio calculations, involving multireference configuration interaction and moderately large basis sets, have been performed to determine the metal-carbon bond energies in the metal methylidene ions MCH2+ of the 5d transition series. On the basis of our calculations and available experimental data, the recommended bond energies D(M+-CH2) are 98 ± 1.5 (La), 104 ± 5 (Hf), 115 ± 5 (Ta), 111 ± 3 (W), 97 ± 4 (Re), 113 ± 3 (Os), 123 ± 5 (Ir), 123 ± 5 (Pt), and 94 ± 2 (Au) kcal/mol. These bond energies are consistent with the experimentally observed reactivity of the metal ions M+ with methane. The double-humped pattern is explained in the context of promotion and exchange energies. The arguments are extended in order to estimate metal-methylidyne bond strengths Z)(M+-CH).

AB - High-level ab initio calculations, involving multireference configuration interaction and moderately large basis sets, have been performed to determine the metal-carbon bond energies in the metal methylidene ions MCH2+ of the 5d transition series. On the basis of our calculations and available experimental data, the recommended bond energies D(M+-CH2) are 98 ± 1.5 (La), 104 ± 5 (Hf), 115 ± 5 (Ta), 111 ± 3 (W), 97 ± 4 (Re), 113 ± 3 (Os), 123 ± 5 (Ir), 123 ± 5 (Pt), and 94 ± 2 (Au) kcal/mol. These bond energies are consistent with the experimentally observed reactivity of the metal ions M+ with methane. The double-humped pattern is explained in the context of promotion and exchange energies. The arguments are extended in order to estimate metal-methylidyne bond strengths Z)(M+-CH).

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