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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Borane transfer reactions

Taylor, Nicholas January 2016 (has links)
Lewis base borane adducts (LB·BH3) constitute a well-known class of molecules with a number of diverse applications, including use as protected phosphines. The kinetics and thermodynamics of borane transfer reactions from a wide range of Lewis base borane complexes have been studied. The data generated has been used both as a quantitative tool to describe the nucleofugality (leaving group ability) of Lewis bases and as a means to improve the efficiency of phosphine borane deprotection reactions. The kinetics of borane transfer from a range of tertiary phosphine borane complexes to a wide range of amines have been determined. All kinetic data obtained, in addition to computational evidence, are consistent with a direct (SN2-like) mechanism, rather than a dissociative (SN1-like) process. The identities of the amine, phosphine and to a lesser extent solvent, impact substantially on the rate and equilibrium of the transfer, which can span several orders of magnitude. In depth structure activity relationships have been explored both for a wide variety of amine nucleophiles and phosphine nucleofuges. Taken as a whole, the data allow informed optimisation of the “deprotection” of a phosphine borane complex from the standpoint of rate or synthetic convenience. Additionally, the kinetics of ethanolysis of tri(o-tolyl)phosphine borane complex have also been studied. Using bridgehead amine quinuclidine as a benchmark, the kinetics of borane transfer from a wide range amine borane adducts have also been determined. Parameterisation of these data, in addition to that obtained for the analogous phosphine borane complexes, has allowed development of a novel nucleofugality scale (NFB) that quantifies the leaving group ability of a wide range of Lewis bases. Additivity in the kinetics across a series R3−nR’nX·BH3 (X = P, N; R/R’ = aryl, alkyl) has led to the formulation of related substituent parameters (nf PB, nfAB) that quantify the nucleofugal influence of a substituent. Using the substituent nucleofugality parameter in concert with additivity provides a mean of calculating ligand nucleofugality (NFB) values for a wide range of Lewis bases that extends far beyond those experimentally derived. Good agreement was found between predicted (using NF B and nFB values) and experimental rates of borane transfer for ligands outside the training set, thus providing a means to predict the relative rate of phosphine borane deprotections. The utility of both parameters was demonstrated through correlations to rates of redox transformations at iridium (bearing phosphine spectator ligands) and MIDA boronate hydrolysis, (MIDA = N-methyliminodiacetic acid). Through these correlations, interesting subtleties in the mechanism of MIDA boronate hydrolysis have been identified.
2

Nanostructuration de groupements protecteurs photolabiles sensibles à l'excitation bi-photonique pour les neurosciences / Two-photon sensitive photolabile protecting groups : from molecular engineering to nano-structuration

Piant, Sébastien 23 November 2015 (has links)
Les groupements protecteurs photolabiles sont utilisés pour de nombreuses applications, notamment en neuroscience pour la libération de neurotransmetteurs avec un contrôle spatio-temporel très fin. La démocratisation des lasers pulsés infrarouges a permis la mise au point de nouveaux composés sensibles à l’excitation à deux photons, de plus en plus efficace. Cependant, l’ingénierie moléculaire des cages n’est pas la seule méthode qui peut être utilisée pour améliorer l’efficacité des de ces composés. Mon travail de thèse a ainsi abordé cette problématique sous l’angle de la nanostructuration de groupements protecteurs photolabiles sensibles à l’excitation à deux photons. Nous avons débuté cette étude avec des composés de petite taille (dimère et tétramère) basés sur des groupements photosensible type ortho-nitrophénéthyle. Nous avons ensuite fonctionnalisé des dendrimères de type polyamidoamine, cependant les propriétés photophysiques et photochimiques de ces nouveaux composés suggèrent que des interactions intramoléculaires perturbent l’efficacité de la réaction de photolibération. Des dendrimères partiellement fonctionnalisés ont ensuite été envisagés. / Photosensitive protecting groups have been used for many applications, including neuroscience for the release of neurotransmitters with an amazing spatio-temporal control. New compounds sensitive to two-photon excitation were developed with the spread out of pulsed infrared lasers. However, cages molecular engineering is not the only way to improve such compounds. This manuscript focuses on nanostructuration to improve the overall efficiency of two-photon sensitive protecting groups. We started our study with small compound as dimer and tetramer based on the ortho-nitrophenethyl architecture. Next, polyamidoamine dendrimers were tested, but photophysics and photochemistry properties of these new compounds suggest that intramolecular interactions disturb photochemical reaction. Synthesis of partially functionalized dendrimer was considering in a next step.

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