Soft Bending Modes of Terminal Chlorides in Gaseous Two- and Three-Coordinate Cu(II)−Cl Species

Ystenes, Beate Katrin; Jensen, Vidar R.

doi:10.1021/ic990270m

Cited by 5 publications

(5 citation statements)

References 58 publications

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“…For example, the different populations of the metal-based σ g , π g , and δ g orbitals (Table ) and the presence of low-lying linear and bent excited states are intrinsic properties of the metal dihalides that affect the way they can interact with the matrix host as well as the relative ease with which the dihalides can bend. The soft-bending modes in CuCl 2 have been studied previously . Hastie et al , estimated the frequencies of ν 2 for CoF 2 (151 cm –1 ), NiF 2 (142 cm –1 ), and ZnF 2 (157 cm –1 ) using gas-phase data with an uncertainty of ±30 cm –1 .…”

Section: Discussionmentioning

confidence: 99%

“…The soft-bending modes in CuCl 2 have been studied previously. 212 Hastie et al 139,185 estimated the frequencies of ν 2 for CoF 2 (151 cm −1 ), NiF 2 (142 cm −1 ), and ZnF 2 (157 cm −1 ) using gas-phase data with an uncertainty of ±30 cm −1 . Thompson and Carlson 99 observed ν 2 for MnCl 2 (83 cm −1 ), FeCl 2 (88 cm −1 ), CoCl 2 (94.5 cm −1 ), NiCl 2 (85 cm −1 ), and NiBr 2 (69 cm −1 ).…”

Section: Articlementioning

confidence: 99%

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How Inert, Perturbing, or Interacting Are Cryogenic Matrices? A Combined Spectroscopic (Infrared, Electronic, and X-ray Absorption) and DFT Investigation of Matrix-Isolated Iron, Cobalt, Nickel, and Zinc Dibromides

et al. 2018

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The interactions of FeBr, CoBr, NiBr, and ZnBr with Ne, Ar, Kr, Xe, CH, and N matrices have been investigated using IR, electronic absorption, and X-ray absorption spectroscopies as well as DFT calculations. ZnBr is linear in all of the matrices. NiBr is linear in all but N matrices, where it is severely bent. For FeBr and CoBr there is a more gradual change, with evidence of nonlinearity in Xe and CH matrices as well as N. In the N matrices, the presence of ν modes blue-shifted from the "free" N values indicates the presence of physisorbed species, and the magnitude of the blue shift correlates with the shift in the ν mode of the metal dibromide. In the case of NiCl and NiBr, chemisorbed species are formed after photolysis, but only if deposition takes place below 10 K. There was no evidence for chemisorbed species for NiF and FeBr, and in the case of CoBr the evidence was not strong.

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Section: Discussionmentioning

confidence: 99%

Section: Articlementioning

confidence: 99%

How Inert, Perturbing, or Interacting Are Cryogenic Matrices? A Combined Spectroscopic (Infrared, Electronic, and X-ray Absorption) and DFT Investigation of Matrix-Isolated Iron, Cobalt, Nickel, and Zinc Dibromides

et al. 2018

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“…[13] Our procedure for evaluation and validation of functionals (BLYP, VWN) for the present purposes involved calculation of the geometry and vibrational frequencies of CuCl 2 , [14] and the geometries of [Cu 2 Cl 6 ] 2À and [Cu 2 Br 6 ] 2À . Details are given in the Supporting Information.…”

Section: Methods Of Calculationmentioning

confidence: 99%

“…Unrestricted density functional calculations were performed with numerical basis sets as implemented in the program DMol. [13] Our procedure for evaluation and validation of functionals (BLYP, VWN) for the present purposes involved calculation of the geometry and vibrational frequencies of CuCl 2 , [14] and the geometries of [ [15] we showed that the VWN functional slightly overestimates intermolecular energies, and that VWN-calculated intermolecular energies scaled by 0.7 yield experimental energies for arene ¥¥¥ arene in- Figure 1. The molecular structures of the anions in 1 ± 5, with atom labels for the asymmetric unit (4 is centrosymmetric and the centroid of 5 is at a 222 (D 2 ) site), and thermal ellipsoids at 50 % probability.…”

Section: Methods Of Calculationmentioning

confidence: 99%

Three-Coordinate [CuIIX3]− (X=Cl, Br), Trapped in a Molecular Crystal

2002

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Mixtures of [Ph3PNPPh3]+Cl− with CuBr2 (or CuBr2+CuCl2) in ethanol/dichloromethane yield crystals containing three‐coordinate copper(II) with mixed chloride and bromide ligands, namely [Ph3PNPPh3]+[CuCl0.9Br2.1]− (1) and [Ph3PNPPh3]+[CuCl2.4Br0.6]− (2). The trigonal‐planar coordination of copper(II) is angularly distorted but unambiguous, as there is no other halide ligand within 6.7 Å of the copper atom. Density functional theory (DFT) calculations on planar [CuClBr2]− show that the energy surface for angle bending is very soft. Crystallisation in the presence of CH3CN yields [Ph3PNPPh3]+[CuCl0.7Br2.3(NCCH3)]− (3), in which there is additional secondary coordination by NCCH3 (Cu−N 2.44 Å). DFT calculations of the potential energy surface for this secondary coordination show that it is remarkably flat (<3 kcal mol−1 for a variation of Cu−N by 0.8 Å). The crystal packing in 1, 2 and 3, which involves multiple phenyl embraces between [Ph3PNPPh3]+ ions and numerous C−H⋅⋅⋅Cl and C−H⋅⋅⋅Br motifs, is associated with intermolecular energies that are larger than the variations in intramolecular energies. For reference, the crystal structures of [Ph3PNPPh3+]2[Cu2Cl6]2− (4) and [Ph3PNPPh3+]2[Cu2Br6]2− (5) are described. We conclude 1) that three‐coordinate copper(II) with monatomic halide ligands, although uncommon, can be regarded as normal, 2) that steric control by ligands is not necessary to enforce three‐coordination, 3) that a hydrophobic aryl environment stabilises [Cu(Cl/Br)3]−, and 4) that the energy change in the transition from three‐ to four‐coordinate copper(II) is very small (ca 5 kcal mol−1).

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“…(15), Ϫ0.429, is due to the mistake, mentioned above, in the earlier calculation of the second-order diagonal Renner-Teller term. In the present paper, we have corrected this contribution and have also added the third-order term, which appear in the H(1, 3) and H(2, 4) terms of matrix for v 2 ϭ 2 levels, (21). The data could however be fitted equally well with the opposite sign.…”

Section: Discussionmentioning

confidence: 99%