1. Cluster Core Controlled Reactions of Substitution of Terminal Bromide Ligands by Triphenyiphosphine in Octahedral Rhenium Chalcobromide Complexes.
- Author
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Shestopalov, Michael A., Mironov, Yuri V., Brylev, Konstantin A., Kozlova, Svetlana G., Fedorov, Vladimir E., Spies, Hartmut, Pietzsch, Hans-Jurgen, Stephan, Holger, Geipel, Gerhard, and Bernhard, Gerd
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CLUSTERING of particles , *RHENIUM compounds , *BROMINE compounds , *LIGANDS (Chemistry) , *X-ray diffraction , *SPECTRUM analysis , *CHALCOGENS - Abstract
Reactions of rhenium chalcobromides Cs4[{Re6(μ3-S)8}Br6]·2H2O, Cs3[{Re6(μ3-Se)8}Br6]·2H2O, Cs3[{Re6(μ3-Q)7(μ3-Br)}Br6]·H2O (Q = S, Se), and K2[{Re6(μ3-S)6(μ3-Br)2Br6] with molten triphenylphosphine (PPh3) have resulted in a family of novel molecular hybrid inorganic-organic cluster compounds. Six octahedral rhenium cluster complexes containing PPh3 ligands with general formula [{Re6(μ3-Q)8-n(μ3-Br)n}(PPh3)4-nBrn+2] (Q = S, n = 0, 1, 2; Q = Se, n = 0, 1) have been synthesized and characterized by X-ray single-crystal diffraction and elemental analyses, 31P{¹H} NMR, luminescent measurements, and quantum-chemical calculations. It was found that the number of terminal PPh3 ligands in the complexes is controlled by the composition and consequently by the charge of the cluster core {Re6Q8-nBrn}n+2. In crystal structures of the complexes with mixed chalcogen/bromine ligands in the cluster core all positions of a cube [Q8-nBrn] are ordered and occupied exclusively by Q or Br atoms. Luminescence characteristics of the compounds trans-[{Re6Q8}(PPh3)4Br2] and fac-[{Re6Se7Br}(PPh3)3Br3] (Q = S, Se) have been investigated in CH2Cl2 solution and the broad emission spectra in the range of 600–850 nm were observed. [ABSTRACT FROM AUTHOR]
- Published
- 2007
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