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https://hdl.handle.net/2440/23546
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Type: | Journal article |
Title: | Pseudo-polymorphism in the tri(o-tolyl)phosphinegoid(I) 2-mercaptobenzoates: Crystallographic, thermal decomposition, and luminescence studies |
Author: | Yun, Sock-Sung Kim, Jae-Kyung Jung, Jae-Sun Park, Changmoon Kang, Jun-Gill Smyth, Douglas Robert Tiekink, Edward Richard Tom |
Citation: | Crystal Growth and Design. 6(4):899-909 |
Publisher: | AMER CHEMICAL SOC |
Issue Date: | 2006 |
ISSN: | 1528-7483 |
School/Discipline: | School of Chemistry and Physics : Chemistry |
Statement of Responsibility: | Sock-Sung Yun, Jae-Kyung Kim, Jae-Sun Jung, Changmoon Park, Jun-Gill Kang, Douglas R. Smyth and Edward R. T. Tiekink |
Abstract: | Thermogravimetric analysis (TGA) and differential scanning calorimetry (DSC) analysis of four crystallographically characterized pseudo-polymorphs of tri(o-tolyl)3PAu(2-mercaptobenzoate)•solvent, (o-tol)3PAu(2-mbaH)•solvent, featuring linear P−Au−S entities and different modes of supramolecular association depending on the nature of the included solvent molecule, have been performed. Whereas the thermal decomposition mechanisms of the four pseudo-polymorphs do not differ significantly from each other, the enthalpies of phase change do vary somewhat, indicating influence of solvent upon coherence of the crystal lattice. Crystals of (o-tol)3PAu(2-mbaH)•solvent are very luminescent. UV excitation produced three emission bands for (o-tol)3PAu-(2-mbaH)•solvent. Contrary to the free ligands, (o-tol)3P and 2-HmbaH, the emission shapes of the Au compounds are very dependent on the excitation energy. The single excitation configuration interaction (CIS) post-Hartree−Fock (HF) calculations were performed to model the electronic structures of the free ligands and (o-tol)3PAu(2-mbaH). The configurational interaction supports the notion that the observed electronic transitions of the complex are strongly associated with the charge transfer from S to Au. The assignment of the emission bands is presented in terms of the relaxed excited states responsible for the charge-transfer transitions, in which the crystal field and the vibronic interactions are taken into account as additional perturbations. |
DOI: | 10.1021/cg0504206 |
Appears in Collections: | Chemistry publications |
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