The electronic structures of bis(η<sup>6</sup>-benzene)- and bis(η<sup>6</sup>-naphthalene)chromium(0)

Weber, Jaques; Kündig, E. Peter; Goursot, Annick; Pénigault, E.

doi:10.1139/v85-291

Cited by 12 publications

(6 citation statements)

References 14 publications

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“…The magnitude of the electron transfer compares well with previous MSXα calculations of Weber et al . , (0.60 or 0.86 electrons) and Osborne et al (0.94) but deviates somewhat with King et al . results (1.28) who found more pronounced electron migration from the chromium to the ligands.…”

Section: Resultsmentioning

confidence: 55%

Density Functional Study of Metal−Arene Compounds: Mono(benzene)chromium, Bis(benzene)chromium and Their Cations

Sahnoun

Mijoule

2001

J. Phys. Chem. A

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To investigate the elementary events of the decomposition of transition metal complexes, a density functional study of the systems Cr(C 6 H 6 ) 2 and Cr(C 6 H 6 ) as well as their corresponding cations, has been carried out. The results give a low bond energy (0.36 eV) for the neutral Cr(C 6 H 6 ) compound while the binding energy of the cation Cr(C 6 H 6 ) + is much higher (1.84 eV), in good agreement with previous theoretical and experimental studies. Concerning the dissociation of Cr(C 6 H 6 ) 2 , the first process (dissociation of the first ligand) needs much higher energy than the second one, and depends on the intersystem crossing relaxation (ISC) of the intermediate Cr(C 6 H 6 ) compound. Taking into account the ISC process, the three-body decomposition occurs at 3.40 eV, in good agreement with recent experimental results. In the case of the Cr(C 6 H 6 ) 2 + dissociation, both processes (with and without ISC) may be available from recent experimental works. Our theoretical results reproduce very well the values corresponding to both ways of decomposition.

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Section: Resultsmentioning

confidence: 55%

Density Functional Study of Metal−Arene Compounds: Mono(benzene)chromium, Bis(benzene)chromium and Their Cations

Sahnoun

Mijoule

2001

J. Phys. Chem. A

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“…2,3 In Cr(h 6 -C 6 H 6 ) 2 , the molecule features a formally chromium(0) atom sandwiched between two neutral benzene rings wherein stabilization is bidirectional: donation of the benzene p-electrons into empty metal orbitals accompanied by backbonding of occupied metal orbitals into the empty benzene p*-orbitals. 4,5 This contrasts the bonding scheme in Cp 2 Fe (Cp ¼ h 5 -C 5 H 5 ), which is considered to contain an iron(II) centre sandwiched between two p-donating, anionic, aromatic Cpligands with negligible backbonding character. 6 Indeed, subsequent analysis of the bonding in Cr(h 6 -C 6 H 6 ) 2 suggests that chromium d-backdonation is the largest contributor to the bonding interactions.…”

Section: Introductionmentioning

confidence: 99%

Actinide arene-metalates: ion pairing effects on the electronic structure of unsupported uranium–arenide sandwich complexes

et al. 2021

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“…The bonding in bis(η 6 -benzene)chromium(0), as determined at the SCF MS Xα level of theory [38] and more recently at the BPW91/TZVP level of theory [39] may be most easily and simply described in terms of covalent interactions between the π and π* ligand orbitals of the C 6 H 6 groups and the 3d, 4s, and 4p orbitals on the chromium center. In a similar fashion, the bonding in bis(benzene)triberyllium(0) -as indicated by the molecular orbitals which involve significant Be-C interactions (Fig.…”

Section: Bonding and Bond Ordersmentioning

confidence: 99%

Triberyllium cluster sandwich complexes: A density functional investigation

Zoellner

2016

Polyhedron

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Density functional computational results at the B3LYP/6-311+G** level of theory for triberyllium-benzene organometallic sandwich complexes are reported. These molecules are the first examples of triangular triberyllium clusters complexed to arene systems. An inverse sandwich complex is reported in which a benzene ring, distorted into a chair conformation, is bound between two eclipsed, triangular Be 3 clusters. In addition, a triple-decker complex is reported in which two eclipsed, triangular Be 3 clusters are layered between a terminal benzene ring distorted into a boat conformation, a bridging benzene ring also distorted into a boat-like structure, and a terminal benzene ring with a chaise longue conformation. A simple sandwich complex containing a Be 3 cluster bound between two distorted benzene rings, one in a boat conformation and the other in a chaise longue conformation, is also reported. The beryllium atoms are asymmetrically bound to the C 6 H 6 rings in η 1-, η 2-, or η 3modes.

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The electronic structures of bis(η⁶-benzene)- and bis(η⁶-naphthalene)chromium(0)

Cited by 12 publications

References 14 publications

Density Functional Study of Metal−Arene Compounds: Mono(benzene)chromium, Bis(benzene)chromium and Their Cations

Density Functional Study of Metal−Arene Compounds: Mono(benzene)chromium, Bis(benzene)chromium and Their Cations

Actinide arene-metalates: ion pairing effects on the electronic structure of unsupported uranium–arenide sandwich complexes

Triberyllium cluster sandwich complexes: A density functional investigation

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The electronic structures of bis(η6-benzene)- and bis(η6-naphthalene)chromium(0)

Cited by 12 publications

References 14 publications

Density Functional Study of Metal−Arene Compounds: Mono(benzene)chromium, Bis(benzene)chromium and Their Cations

Density Functional Study of Metal−Arene Compounds: Mono(benzene)chromium, Bis(benzene)chromium and Their Cations

Actinide arene-metalates: ion pairing effects on the electronic structure of unsupported uranium–arenide sandwich complexes

Triberyllium cluster sandwich complexes: A density functional investigation

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The electronic structures of bis(η⁶-benzene)- and bis(η⁶-naphthalene)chromium(0)