Syntheses, Structures, and Molecular-Orbital Calculations of Chromium Chevrel-Type Cluster Complexes [Cr6E8(PR3)6] (E=S, PR3=PEt3, PMe3; E=Se, PR3=PEt3, PMe3, PMe2Ph)

Kiyoshi Tsuge; Hideo Imoto; Taro Saito

doi:10.1246/bcsj.69.627

Syntheses, Structures, and Molecular-Orbital Calculations of Chromium Chevrel-Type Cluster Complexes [Cr₆E₈(PR₃)₆] (E=S, PR₃=PEt₃, PMe₃; E=Se, PR₃=PEt₃, PMe₃, PMe₂Ph)

Kiyoshi Tsuge, Hideo Imoto, Taro Saito^*

^*Corresponding author for this work

Department of Chemistry

Research output: Contribution to journal › Article › peer-review

26 Scopus citations

Abstract

Hexanuclear chromium cluster complexes [Cr₆E₈(PR₃)₆] (E = S, PR₃ = PEt₃, PMe₃; E = Se, PR₃ = PEt₃, PMe₃, PMe₂Ph) were prepared by the reaction of anhydrous chromium dichloride, a trialkylphosphine, and either NaSH or Na₂Se in methanol. The complexes comprised the Cr₆ octahedra with eight face-bridging chalcogen atoms and six terminal phosphine ligands. Though the overall ligand arrangements were the same, the symmetry of the central Cr₆ octahedra was O_h in PEt₃ complexes, but distorted to D_3d and D_2h in PMe₃ and PMe₂Ph complexes, respectively. Because of a weakness of the metal-metal interaction, the steric and electronic effect complementarily caused a variation in the chromium octahedra. The electronic effect was analyzed by molecular-orbital calculations using the DV-Xα method.

Original language	English
Pages (from-to)	627-636
Number of pages	10
Journal	Bulletin of the Chemical Society of Japan
Volume	69
Issue number	3
DOIs	https://doi.org/10.1246/bcsj.69.627
State	Published - 1996/03

ASJC Scopus subject areas

General Chemistry

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10.1246/bcsj.69.627

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@article{1a94118cb9614ecea533863799c4e5a1,

title = "Syntheses, Structures, and Molecular-Orbital Calculations of Chromium Chevrel-Type Cluster Complexes [Cr6E8(PR3)6] (E=S, PR3=PEt3, PMe3; E=Se, PR3=PEt3, PMe3, PMe2Ph)",

abstract = "Hexanuclear chromium cluster complexes [Cr6E8(PR3)6] (E = S, PR3 = PEt3, PMe3; E = Se, PR3 = PEt3, PMe3, PMe2Ph) were prepared by the reaction of anhydrous chromium dichloride, a trialkylphosphine, and either NaSH or Na2Se in methanol. The complexes comprised the Cr6 octahedra with eight face-bridging chalcogen atoms and six terminal phosphine ligands. Though the overall ligand arrangements were the same, the symmetry of the central Cr6 octahedra was Oh in PEt3 complexes, but distorted to D3d and D2h in PMe3 and PMe2Ph complexes, respectively. Because of a weakness of the metal-metal interaction, the steric and electronic effect complementarily caused a variation in the chromium octahedra. The electronic effect was analyzed by molecular-orbital calculations using the DV-Xα method.",

author = "Kiyoshi Tsuge and Hideo Imoto and Taro Saito",

year = "1996",

month = mar,

doi = "10.1246/bcsj.69.627",

language = "英語",

volume = "69",

pages = "627--636",

journal = "Bulletin of the Chemical Society of Japan",

issn = "0009-2673",

publisher = "Oxford University Press",

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TY - JOUR

T1 - Syntheses, Structures, and Molecular-Orbital Calculations of Chromium Chevrel-Type Cluster Complexes [Cr6E8(PR3)6] (E=S, PR3=PEt3, PMe3; E=Se, PR3=PEt3, PMe3, PMe2Ph)

AU - Tsuge, Kiyoshi

AU - Imoto, Hideo

AU - Saito, Taro

PY - 1996/3

Y1 - 1996/3

N2 - Hexanuclear chromium cluster complexes [Cr6E8(PR3)6] (E = S, PR3 = PEt3, PMe3; E = Se, PR3 = PEt3, PMe3, PMe2Ph) were prepared by the reaction of anhydrous chromium dichloride, a trialkylphosphine, and either NaSH or Na2Se in methanol. The complexes comprised the Cr6 octahedra with eight face-bridging chalcogen atoms and six terminal phosphine ligands. Though the overall ligand arrangements were the same, the symmetry of the central Cr6 octahedra was Oh in PEt3 complexes, but distorted to D3d and D2h in PMe3 and PMe2Ph complexes, respectively. Because of a weakness of the metal-metal interaction, the steric and electronic effect complementarily caused a variation in the chromium octahedra. The electronic effect was analyzed by molecular-orbital calculations using the DV-Xα method.

AB - Hexanuclear chromium cluster complexes [Cr6E8(PR3)6] (E = S, PR3 = PEt3, PMe3; E = Se, PR3 = PEt3, PMe3, PMe2Ph) were prepared by the reaction of anhydrous chromium dichloride, a trialkylphosphine, and either NaSH or Na2Se in methanol. The complexes comprised the Cr6 octahedra with eight face-bridging chalcogen atoms and six terminal phosphine ligands. Though the overall ligand arrangements were the same, the symmetry of the central Cr6 octahedra was Oh in PEt3 complexes, but distorted to D3d and D2h in PMe3 and PMe2Ph complexes, respectively. Because of a weakness of the metal-metal interaction, the steric and electronic effect complementarily caused a variation in the chromium octahedra. The electronic effect was analyzed by molecular-orbital calculations using the DV-Xα method.

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U2 - 10.1246/bcsj.69.627

DO - 10.1246/bcsj.69.627

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JO - Bulletin of the Chemical Society of Japan

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