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Polyhedral oligomeric silsesquioxanes in catalysis and photoluminescence applicationsVautravers, Nicolas R. January 2009 (has links)
Cubic Polyhedral Oligomeric SilSesquioxanes (POSS) of general formula Si₈O₁₂R₈ (R = alkenyl, alkoxy, aryl, hydrogen...) have found applications in various fields ranging from biology to chemistry. Besides the advantage of presenting the characteristic dendritic globular shape at low generation, these three-dimensional molecules, easily modified by organic or inorganic reactions, quickly exhibit multiple end groups at their periphery, thus featuring attractive properties in catalysis and photoluminescence applications. Various dendritic POSS containing diphenylphosphine moieties at their periphery have been used in the methoxycarbonylation of ethene. Those with a -CH₂CH₂- spacer between the silicon and the phosphorus atoms (G0-8ethylPPh₂ and G1-16ethylPPh₂) only produce methyl propanoate whilst a similar dendrimer with a -CH₂- spacer between Si and P (G1-16methylPPh₂) gives only copolymer. The effect of the molecular architecture is discussed in comparison with the selectivities observed when using small molecule analogues. A wide range of non dendritic monodentate phosphines has also been studied in this reaction showing that low steric bulk and high electron density favours polyketone formation. The poorly active, monodentate SemiEsphos phosphine has been turned into an active ligand for rhodium catalysed vinyl acetate hydroformylation by attachment to the periphery of a Polyhedral Oligomeric Silsesquioxane. Whilst some of these dendritic ligands have shown activity, others precipitated upon mixing with the rhodium precursor. Modelling studies correlating the experimental facts have shown that the former are more compact and rigid in comparison to the latter, which are more flexible and hence more prone to monodentate binding to rhodium and cross-linking. Grubbs cross metathesis has been used to functionalize octavinylsilsesquioxane with fluorescent vinylbiphenyl modified chromophores to design new hybrid organic-inorganic nanomaterials. Those macromolecules have been characterized by NMR, microanalyses, MALDI-TOF mass spectrometry and photoluminescence. This last method was shown to be an interesting tool in the analysis of the purity of the cube derivatives. Reduction of the peripheral 4`-vinylbiphenyl-3,5-dicarbaldehyde groups on a Polyhedral Oligomeric Silsesquioxane (POSS) with NaBH₄ or LiAlH₄ activates the fluorescence of this macromolecule by turning the aldehydic functions into primary alcohols providing novel optical sensors for reducing environments.
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Studies in gas phase ion chemistry : a thesis presented for the degree of Doctor of Science in the Faculty of Science of the University of Adelaide / by Richard Alfred John O'Hair.O'Hair, Richard Alfred John January 2004 (has links)
"December 2004" / Includes bibliographical references. / 2 v. (various pagings) : / Title page, contents and abstract only. The complete thesis in print form is available from the University Library. / Thesis (D.Sc.)--University of Adelaide, School of Chemistry and Physics, Discipline of Chemistry, 2005
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Studies in gas phase ion chemistry : a thesis presented for the degree of Doctor of Science in the Faculty of Science of the University of Adelaide /O'Hair, Richard Alfred John. January 2004 (has links) (PDF)
Thesis (D.Sc.)--University of Adelaide, School of Chemistry and Physics, Discipline of Chemistry, 2005? / "December 2004" Includes bibliographical references.
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Thermal Reactions of Four-Membered Rings Containing Silicon or GermaniumNamavari, Mohammad, 1950- 12 1900 (has links)
The synthesis of E- and Z-1,1,2,3-tetramethylsilacyclobutanes is described. Pyrolysis of either isomer at 398.2 °C provides the same products but in different amounts: propene, E- and Z-2-butene, allylethyldimethylsilane, dimethylpropylsilane, the respective geometric isomers, 1,1,2,3,3-pentamethyl-1,3-disilacyclobutane, 1,1, l-ethyldimethyl-2,2,2-vinyldimethyl-disilane and E- and Z-1,1,2,3,3,4-hexamethyl-1,3-disilacyclobutane. Mechanisms involving di- and trimethylsilenes are described for disilane formation and rate constants of the elementary steps for the fragmentation reactions are reported. Photochemically generated dimethylsilylene in the hydrocarbon solution inserts into the cyclic Ge-C or Si-C bonds of 1,1-dimethylgerma- or silacyclobutane to produce 1-germa-2-sila- or 1,2-disilacyclopentane. The relative reactivities of 1,1-dimethylgerma- and silacyclobutanes toward the dimethylsilylene have been determined. The carbenoid resulting from the cuprous chloride catalyzed decomposition of diazomethane at 25 °C in cyclohexane reacts with 1,1-dimethylgermacyclobutane to give, surprisingly 1,1,5,5-tetramethyl-1,5-digermacyclooctane as the major product. The reactions of the carbenoid with 1,1-dimethylsilacyclobutane are described. The kinetics of gas phase thermal decomposition of 1,1-dimethylgermacyclobutane has been studied over the temperature range, 684 - 751 K at pressures near 14 Torr. The Arrhenius parameters for the formation of ethylene are k_1 (s^-1) = 10^(14.6 ± 0.3) exp (62.7 ± 2.9 kcal mol^-1/RT) and those for the formation of propene and cyclopropane are k_2 (s^-1) = 10^(14.0 ± 0.1 ) exp (60.4 ± 2.8 kcal mol^-1/RT). Static gas phase pyrolyses of 1,1-dimethyl-lsilacyclobutene, DMSCB, in the presence of a variety of alkenes and alkynes at 260 - 365 °C have been studied. Our experimental results suggest that under these conditions the DMSCB ring opens to 1,1-dimethyl-l-silabutadiene, which either recyclizes to DMSCB or reacts with alkenes or alkynes in competing 4 + 2 and 2 + 2 cycloadditions.
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