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The Global ETD Search service is a free service for researchers
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Showing 1 to 8 of 8 (0.102 seconds)| 1 |
A study of the displacement of halogen from chlorinated heteroaromatic azines by dialkali salts of benzoylacetone, disodio salts of certain 2-hydroxy-4-methylpyrimidines, and the methylsulfinyl carbanionGreene, James Carson 25 August 2008 (has links)
Halogenated monocyclic and bicyclic heteroaromatic azines, possessing a six or ten w-electron system and one or two ring nitrogens, have been shown to undergo nucleophilic displacement of halide ion with a variety of nucleophiles. A detailed review of the relative reactivity of compounds of these classes, as well as halogenated heteroaromatic azines containing as many as four nitrogen atoms has appeared. / Ph. D.
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Decarboxylative and direct functionalisations of aromatic compoundsSeo, Sangwon January 2014 (has links)
Aromatic rings are privileged structures found in a diverse range of natural and synthetic compounds, thus synthetic methods for their functionalisations are important in organic synthesis. Despite significant advancements made, especially in the field of transition metal catalysis, work still continues for the development of milder, more efficient, and more atom economical reactions. We describe here our efforts towards the development of decarboxylative/direct C(aryl)–N and C(aryl)–C bond forming reactions using aromatic carboxylic acids and unfunctionalised arenes as cheap and widely available aromatic sources. The investigations into copper-catalysed and copper/palladium-catalysed intermolecular and copper/silver/palladium-catalysed intramolecular decarboxylative amination of aromatic carboxylic acids are reported. A new approach to decarboxylation of benzoic acids is also described. The reaction uses silver (I) catalyst and peroxydisulfate salt to generate aryl radicals via oxidative decarboxylation. The applications of this approach in intra- and intermolecular decarboxylative C–H arylation, and protodecarboxylation are described. Also described is the development of silver-catalysed trifluoromethylation of simple arenes and heteroarenes. The reaction proceeds via radical trifluoromethylation using trimethyl(trifluoromethyl)silane as the trifluoromethyl radical source. This method has been applied to the trifluoromethylation of complex agrochemical molecules, proving its synthetic utility in late-stage functionalisation. Furthermore, we describe the exploitation of trifluoroacetate derivatives as cheap trifluoromethylating reagents in copper-mediated decarboxylative C–H trifluoromethylation of 2-phenylpyridine.
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Attempted Azidation of Carbohydrate Secondary Alcohols Using Arylsulfonyl AzidesMayieka, Morgan Ongaga 06 August 2020 (has links)
No description available.
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Quantum Chemical Studies of Chemotherapeutic Drug Cisplatin : Activation and Binding to DNARaber, Johan January 2007 (has links)
<p>The serendipitous discovery of the potent cytotoxic properties of cisplatin brought about a revolution in the treatment of certain types of cancer, but almost fifty years later, there still remain unknown areas in the chemistry of cisplatin. There are questions regarding which form of the drug reaches its DNA target, or why certain DNA sequences are more preferred than others for reaction with cisplatin. The work presented here aims to address some of these problems, using quantum chemical calculations to complement and interpret available experimental data.</p><p>Cisplatin's activation reactions are explored by Density Functional Theory (DFT) on two model systems, one solely using a self-consistent reaction field (SCRF) for modeling bulk water, and one including an additional partial solvation shell of water molecules. It is concluded that adding explicit solvation provides a better picture than using SCRF solvation alone. The energy surface supports the view that the active form of cisplatin is the monoaquated form.</p><p>The activation reactions of the cisplatin-derived drug, JM118, are investigated using DFT and SCRF calculations using three solvation model systems. The results show a slower rate of hydrolysis for the first reaction, and a faster rate for the second, suggesting diaquated JM118 as the main DNA binding form of the drug.</p><p>Diaquated cisplatin's first and second reaction with guanine and adenine are studied using DFT and SCRF solvation. Cisplatin's propensity toward guanine in the first substitution is explained by larger stabilisation energy for the initially formed complex and by favoured kinetics. For the second substitution, higher stability in complexation with guanine over adenine is ascribed as the main factor favouring guanine over adenine substitution. This provides the first explanation for the predominance of 1,2-d(GpG) over 1,2-d(ApG) adducts, and the direction specificity of the 1,2-d(ApG) adducts.</p>
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Quantum Chemical Studies of Chemotherapeutic Drug Cisplatin : Activation and Binding to DNARaber, Johan January 2007 (has links)
The serendipitous discovery of the potent cytotoxic properties of cisplatin brought about a revolution in the treatment of certain types of cancer, but almost fifty years later, there still remain unknown areas in the chemistry of cisplatin. There are questions regarding which form of the drug reaches its DNA target, or why certain DNA sequences are more preferred than others for reaction with cisplatin. The work presented here aims to address some of these problems, using quantum chemical calculations to complement and interpret available experimental data. Cisplatin's activation reactions are explored by Density Functional Theory (DFT) on two model systems, one solely using a self-consistent reaction field (SCRF) for modeling bulk water, and one including an additional partial solvation shell of water molecules. It is concluded that adding explicit solvation provides a better picture than using SCRF solvation alone. The energy surface supports the view that the active form of cisplatin is the monoaquated form. The activation reactions of the cisplatin-derived drug, JM118, are investigated using DFT and SCRF calculations using three solvation model systems. The results show a slower rate of hydrolysis for the first reaction, and a faster rate for the second, suggesting diaquated JM118 as the main DNA binding form of the drug. Diaquated cisplatin's first and second reaction with guanine and adenine are studied using DFT and SCRF solvation. Cisplatin's propensity toward guanine in the first substitution is explained by larger stabilisation energy for the initially formed complex and by favoured kinetics. For the second substitution, higher stability in complexation with guanine over adenine is ascribed as the main factor favouring guanine over adenine substitution. This provides the first explanation for the predominance of 1,2-d(GpG) over 1,2-d(ApG) adducts, and the direction specificity of the 1,2-d(ApG) adducts.
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Thiol-para-fluoro modified PPFS as building blocks for the design of silica-based nanocomposite and layer by layer self-assembled thin films / PPFS modifié par thiol-para-fluoro comme éléments de base pour la conception de nanocomposites à base de silice et de films minces auto-assemblés couche par coucheYin, Quanyi 30 March 2018 (has links)
Ce travail de thèse décrit la préparation de deux types de films de polymères : i) des films nanocomposites à base de silice pyrogénée aux propriétés superhydrophobes et ii) des films LbL auto-assemblés, incluant tous deux des dérivés de poly(2,3,4,5,6-pentaflurostyrene) (PPFS), utilisés comme briques élémentaires. La stratégie utilisée ici consiste à exploiter les nombreux avantages que présente la réaction de substitution du fluor en position para du PPFS avec un thiol, pour générer de nouveaux dérivés aux propriétés ajustables. Ainsi, le premier volet de la thèse a consisté à introduire des chaînes de PPFS de façon covalente à la surface de silice pyrogénée par une stratégie dite de «grafting through» en utilisant la polymérisation radicalaire contrôlée par le voir nitroxydes, en présence de PS-DEPN comme macroamorceur. La cinétique de polymérisation du PFS avec et sans particules silice a été étudiée dans divers solvants, différentes particules hybrides de silices modifiées en surface par une couronne de PPFS ont été préparé. Ensuite, un thiol perfluoré (perfluorodecanethiol:PFDT) a été utilisé pour modifier le PPFS, considéré dans ce cadre comme matrice hôte pour la préparation des nanocomposites et pour modifier le PPFS présent à la surface des particules de silice. A partir de là, un large panel de films nanocomposite a été préparé à partir des différentes combinaisons possibles de polymère hôte (PPFS ou PPFS-PFDT) et de charges inorganiques de silice (modifiées par le PPFS ou par le PPFS-PFDT). Les propriétés de mouillabilité ainsi que la morphologie de surface de chaque film ont été analysées et il en résulte que certains films présentent un caractère superhydrophobe. Le deuxième volet de la thèse a porté sur la modification du PPFS par des thiols porteurs de fonctions acide carboxylique, toujours par la réaction de substitution décrite précédemment. Différents dérivés de PPFS carboxylés de DS variés ont été synthétisés. Leur habilité à développer des liaisons hydrogène avec un polymère modèle accepteur de liaison H (la poly(4-vinyl pyridine) (P4VP)) a été étudiée. Il en ressort que dépendamment de la nature du solvant, des mélanges miscibles ou des complexes interpolymères ont ensuite été formés. Des solutions de complexes préformés ont été successivement déposées par spin-coating pour construire des films. De plus, des films multicouches LbL stabilisés par des liaisons H entre le PPFS carboxylé et la P4VP ont été élaborés and il a été démontré que la nature du solvant de dépôt, ainsi que le taux de modification du PPFS, impactent fortement le mécanisme de croissance, l’épaisseur du film et les caractéristiques de surface, en termes de topologie et de mouillabilité. / This work describes the preparation of two kinds of thin polymer films : i) self-cleaning silica-based (nano)composites films and ii) LbL self-assembling films, both including poly(2,3,4,5,6-pentaflurostyrene) (PPFS) derivatives, as building blocks. The cornerstone of the approach is to exploit the thiol-para fluoro substitution reaction to PPFS chains in order to generate derivatives with tailored properties. In this frame, PPFS chains were anchored onto the surface of vinyl-functionalized fumed silica nanoparticles by nitroxide-mediated polymerization (NMP) in presence of PS-DEPN as macro-initiator via a “grafting through” strategy. The kinetics of NMP of PFS were investigated in presence and without silica in various solvents and well-characterized hybrid silica particles containing different polymer grafting weight were declined. Then, perfluorodecanethiol (PFDT) was employed to modify PPFS, considered as the host polymer matrix, and to functionalize PPFS chains tethered to silica particles. A large panel of (nano)composite films from the different possible host matrix/silica particles combinations was prepared. The wettability and the surface morphology of each film were discussed, as a function of the host structure (PPFS or PPFS-PFDT with different DS) and silica (modified with PPFS or PPFS-PFDT), as well as the silica content. It results that superhydrophobic features can be reached. Subsequently, PPFS was modified by using carboxylic acid mercapto modifier via the thiol-para fluoro coupling. Various carboxylated PPFS derivatives differing in the degree of substitution (DS) were prepared and their ability to develop H-bonds in solution with a model strong H-bond acceptor partner (poly(4-vinyl pyridine) (P4VP)) was investigated. Dependently on the nature of the solvent, a miscible blend or interpolymer complexes (IPC) were achieved. IPC-containing solutions were used to successfully fabricate spin-assisted films. Furthermore, H-bonds mediated LbL self-assembly multilayer films involving carboxylated PPFS and P4VP were prepared and it was evidenced that the nature of the deposition solvent as well as the extent of the modification (quantified by the DS), impact the growth mechanism, the thickness and the surface features, in terms of topology and wettability.
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Studies towards Developing Diastereoselective SN1 Reactions of α-Keto CarbocationsDubland, Joshua 06 April 2010 (has links)
Although α-keto carbocations have been demonstrated to be viable intermediates in solvolysis reactions, their applications in synthesis are scarce. These species can be considered to be equivalent to “reversed polarity” enolates and, as such, could be useful for the asymmetric formation of carbon-carbon and carbon-heteroatom bonds. In principle, facial selectivity in additions to α-keto carbocations may be induced using easily removed ester, amide, or imide chiral auxiliaries. Efforts to achieve such diastereoselective SN1 reactions of α-keto carbocations are described herein.
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Studies towards Developing Diastereoselective SN1 Reactions of α-Keto CarbocationsDubland, Joshua 06 April 2010 (has links)
Although α-keto carbocations have been demonstrated to be viable intermediates in solvolysis reactions, their applications in synthesis are scarce. These species can be considered to be equivalent to “reversed polarity” enolates and, as such, could be useful for the asymmetric formation of carbon-carbon and carbon-heteroatom bonds. In principle, facial selectivity in additions to α-keto carbocations may be induced using easily removed ester, amide, or imide chiral auxiliaries. Efforts to achieve such diastereoselective SN1 reactions of α-keto carbocations are described herein.
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