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Cohomologie des variétés de Coxeter pour le groupe linéaire : algèbre d'endomorphismes, compactification / Cohomology of Coxeter varieties for linear groups : endomorphisms algebra, compactificationNguyen, Tuong-Huy 11 December 2015 (has links)
Les variétés de Deligne-Lusztig associées à un élément de Coxeter, dites variétés de Coxeter et notées $YY(dot{c})$, sont des variétés candidates à réaliser l'équivalence dérivée demandée dans la conjecture de Broué. Cette conjecture implique qu'une telle variété doit avoir une cohomologie disjointe et donne également la description de l'algèbre d'endomorphismes associée. Dans le cas des groupes linéaires, nous décrivons la cohomologie des variétés de Coxeter et en déduisons que celles-ci vérifient bien les propriétés impliquées par la conjecture de Broué. Pour ce faire, nous montrons qu'il est possible d'appliquer un résultat de og transitivitéfg permettant de se ramener à des variétés de Coxeter og plus petitesfg et nous utilisons ensuite un résultat établi par Lusztig sur des variétés notées $XX(c)$, obtenues comme des quotients des variétés $YY(dot{c})$ par des groupes finis. Enfin, dans une dernière partie, la description de la cohomologie des variétés de Coxeter nous permet d'obtenir un lien entre la cohomologie de la compactification $overline{YY}(dot{c})$ et celle de la compactification $overline{XX}(c)$. / Deligne-Lusztig varieties associated to Coxeter elements, or more simply Coxeter Varieties denoted by $YY(dot{c})$, are good candidates to realize the derived equivalence needed for the Broué's conjecture. The conjecture implies that the varieties should have disjoint cohomology as well as gives a description of the endomorphisms algebra.For linear groups, we describe the cohomology of the Coxeter varieties and hence show that it agrees with the conditions implied by Broué's conjecture. To do so, we prove it is possible to apply a og transitivityfg result allowing us to restrict to og smallerfg Coxeter varieties. Then, we apply a result obtained by Lusztig on varieties $XX(c)$, which are quotient varieties of $YY(dot{c})$ by some finite groups.In the last part of the thesis, we use the description of the cohomology of Coxeter varieties to connect the cohomology of the compactification $overline{YY}(dot{c})$ and the cohomology of the compactification $overline{XX}(c)$.
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Pangénome de Coxiella Burnetii : étude pangénomique de C. burnetii : relations entre profil génétique et pathogénicité / Pangenome of Coxiella Burnetii : pangenomic study of C. burnetii : relationship between genetic profile and pathogenicityD'Amato, Felicetta 08 October 2015 (has links)
Coxiella burnetii est l’agent pathogène responsable de la fièvre Q. Dans le cadre de cette thèse nous nous sommes intéressés à l'étude de souches de C.burnetii responsables d'événements épidémiques. Nous avons séquencé une souche de génotype MST33 (Z3055), proche de la souche responsable de l'épidémie de fièvre Q aux Pays-Bas, et une souche de génotype MST17 (Cb175) clone provoquant l'une des formes les plus virulentes de fièvre Q aiguë jamais décrite auparavant et retrouvée à ce jour uniquement en Guyane Française. Les résultats de ces analyses montrent que le génome de la souche Z3055 était très similaire à celui de la souche de référence Nine Mile I. Les différences observées sont liées à la présence de mutations non synonymes dans le génome de Z3055. Le pourcentage élevé de protéines membranaires mutées pourrait expliquer l’ampleur de cette épidémie en Hollande. En effet, le changement de profil antigénique pourrait être à l’origine de la formation d’un nouveau sérotype capable d'échapper à la réponse immunitaire de l'hôte et de diffuser facilement dans une population au système immunitaire naïf. Nous avons d’ailleurs montré que la souche responsable de la fièvre Q en Guyane (Cb175) présente des différences chromosomiques importantes par rapport à NMI. Ces différences se manifestent principalement par la présence d’une délétion d’une région de 6105pb contenant l’opéron hlyCABD du système de sécrétion de type 1 (T1SS). Ce résultat est cohérent avec ce qui a été observé chez les bactéries épidémiques les plus dangereuses comparées à leurs espèces non-épidémiques plus proches qui ont un génome réduit et contiennent moins de protéines du système de sécrétion. / Coxiella burnetii is a human pathogen that causes the zoonotic disease Q fever. In this work, we focused on the study of strains responsible for epidemic events. Particularly, we sequenced the clone of the strain responsible for Netherlands outbreak having genotype MST33 (Z3055), and strain having MST17 (Cb175) responsible for one of the most severe form of acute Q fever never reported in literature and uniquely described in French Guiana. Our findings showed that the Netherlands outbreak responsible strain (clone Z3055) was highly similar to the reference strain Nine Mile I. Only slight differences were observed, which were related to non-synonymous mutations in Z3055 genome. The high proportion of mutated membrane proteins could explain this large-scale outbreak. Change of antigenic profile may have led to a new serotype, conferring to the novel clone the capacity to escape the host immune response and to disseminate easily in a immunologically naïve population. On the contrary, the type strain responsible for Q fever in Guiana (Cb175) showed an important difference in its chromosome sequence compared to the reference NMI because of the deletion of a sequence of 6105bp containing the Type 1 secretion systems (T1SS) hlyCABD operon. This result appear consistent with previous findings that showed the most dangerous epidemic bacteria compared with their closest non-epidemic species are characterized by reduced genomes accompanied by significant decrease in ORF content and contain less secretion system proteins.
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Clinical supervision in selected hospitals, Cape Town: reflections on registered nurses lived experiencesKlerk, Kate January 2010 (has links)
Magister Curationis - MCur / The purpose of this qualitative explorative study is to explain individualized lived experiences of registered nurses working and participating in clinical supervision for nursing students within the clinical environment at selected hospitals. The study explores the challenges faced by registered nurses on a daily basis on how to structure clinical activities for the nursing students and provide high quality care to patients. / South Africa
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Pathways for C—H Activation and Functionalization by Group 9 MetalsPahls, Dale R. 05 1900 (has links)
As fossil fuel resources become more and more scarce, attention has been turned to alternative sources of fuels and energy. One promising prospect is the conversion of methane (natural gas) to methanol, which requires an initial activation of a C-H bond and subsequent formation of a C-O bond. The most well studied methodologies for both C-H activation and C-O bond formation involve oxidation of the metal center. Metal complexes with facile access to oxidation states separated by four charge units, required for two subsequent oxidations, are rare. Non-oxidative methods to perform C-H bond activation or C-O bond formation must be pursued in order for methane to methanol to become a viable strategy. In this dissertation studies on redox and non-redox methods for both C-H activation and C-O bond formation are discussed. In the early chapters C-O bond formation in the form of reductive functionalization is modeled. Polypyridine ligated rhodium complexes were studied computationally to determine the properties that would promote reductive functionalization. These principles were then tested by designing an experimental complex that could form C-O bonds. This complex was then shown to also work in acidic media, a critical aspect for product stabilization. In the later chapters, non-oxidative C-H activation is discussed with Ir complexes. Both sigma bond metathesis and concerted metalation deprotonation were investigated. For the former, the mechanism for an experimentally known complex was elucidated and for the latter the controlling factors for a proposed catalyst were explored.
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Nickel Catalyzed Cycloaddition Reactions: Alkyne Cyclotrimerizations and Reductive Vinylidene Transfer ReactionsSudipta Pal (5930111) 14 January 2021 (has links)
The advent of transition metal catalysis has greatly expanded the scope of viable cycloaddition reactions, allowing for the direct synthesis of highly functionalized and complex biologically active compounds. By manipulating various aspects of catalyst structure, including the supporting ligands and the central metal, the function of a catalyst can be modified. In this context, the catalytic properties of dinuclear complexes have not been greatly explored in cycloaddition reactions. Our research has focused on studying the catalytic properties of dinuclear complexes in cycloaddition reactions. Comparative studies between dinuclear and mononuclear Ni-complexes led us to discover and develop an efficient route to synthesize 1,2,4-trisubstituted benzene derivatives from terminal alkynes. The key organometallic intermediates in this process were isolated, and computational studies were performed to unravel a novel bimetallic mechanism for alkyne cyclotrimerizations. As an extension of this study, we have found that the dinuclear catalyst is capable of catalyzing the methylenecyclopropanation of olefins. The reaction uses 1,1-dichloroalkene as a vinylidene precursor along with Zn as a stoichiometric reductant. A wide range of monosubstituted terminal alkenes and relatively unhindered internal alkenes are viable substrates. Furthermore, to understand the mechanism of vinylidene transfer, various stoichiometric and stereochemical experiments were performed. Furthermore, we discovered that mononuclear and dinuclear Ni-complexes are highly efficient in achieving vinylidene insertions into Si–H bonds to synthesize Si-containing heterocyclic molecules. Ongoing efforts are directed toward optimizing the reaction conditions and elucidating the substrate scope of the reaction.
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Design and Development of Homogeneous Photosystems Based on Heteroleptic Cu(I) Photosensitizers for Solar Hydrogen ProductionSaeedi, Sima 24 May 2022 (has links)
No description available.
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Exploring Nickel Catalysis in Carbonyl and Alcohol Addition ReactionsNasim, Amrah 03 June 2022 (has links)
The nucleophilic addition of organomagnesium/lithium reagents to aldehydes and ketones has long enabled the synthesis of valuable alcohol derivatives; however, these types of transformations are often plagued by poor functional group tolerance and require harsh reaction conditions. The direct coupling of carbonyls and alcohols with aryl halides is an appealing alternative to access secondary alcohol products. However, this necessitates a formal C-H bond activation which is not well established in the literature.
Chapter 1 provides a detailed literature background of the transition metal-catalyzed functionalization of carbonyls and alcohols. The work discussed in Chapter 2 of this thesis demonstrates the addition of aryl halides to aryl and aliphatic aldehydes and alcohols providing secondary alcohol products in moderate to high yields. Key to the success of this transformation was the implementation of underexplored and readily synthesized 1,5-diaza-3,7-diphosphacyclooctane (P2N2) ligands.
Chapter 3 extends the methodology established in chapter 2 and aims to get a preliminary understanding of the application and mechanism of the reaction described above. For this purpose, pharmaceutically relevant isatin substrates are derivatized, providing access to substitution at the 3-position. Coupling isatins with aryl halides yields 3-aryl-3-hydroxy-2-oxindole products which are scaffolds for many natural product derivatives. Through high-throughput experimentation (HTE), we were able to
discover that 1,2-addition at the carbonyl position of isatins is highly compatible with our established system and led us to develop a modest scope as well as gain useful mechanistic insights for this coupling.
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Technetium environmental chemistry: Mechanisms for the surface-mediated reduction of Tc(VII)Rodríguez Hernandez, Diana Marcela 08 July 2021 (has links)
Technetium is the lightest element whose isotopes are all radioactive. Among them, 99Tc (hereafter simply referred as technetium or Tc) is the most abundant and raises great environmental concern due to its relatively long half-life of 2.14×105 years and the high mobility of pertechnetate, Tc(VII)O4, its most stable form under aerobic conditions. The reduction from Tc(VII) to Tc(IV) is one of the most successful strategies for Tc immobilization; however, the mechanism of this redox reaction is not yet fully understood. This presents a large gap in the general knowledge of technetium chemistry and a significant obstacle for the modeling of its reactivity in contexts like a nuclear waste repository. This thesis was developed in the frame of the BMWi funded VESPA II project, and it studies the surface-mediated reduction of 99Tc(VII) using a combination of fundamental chemistry and its application for remediation and nuclear waste management.
First, spectro-electrochemical methods (cyclic voltammetry, rotating disk electrode, chronoamperometry coupled with UV-vis, Raman microscopy and nuclear magnetic resonance) were employed to study the reduction mechanism of 0.5 mM KTcO4 in non-complexing media (2 M NaClO4) in the pH range from 2.0 to 10.0. It was found that the mechanism depends on the pH. At pH 2.0 it splits into two steps: Tc(VII) gains 2.1 ± 0.3 electrons and becomes Tc(V) that rapidly reduces to Tc(IV) with the transfer of further 1.3 ± 0.3 electrons. In contrast, at pH ≥ 4.0 there is a direct transfer of 3.2 ± 0.3 electrons. The complete reduction of Tc(VII) yielded a black solid that was successfully characterized by NMR and Raman microscopy as Tc(IV) regardless of the initial pH at which the reaction occurred. Unfortunately, it was not possible to observe the Tc(V) species at pH 2.0 by the spectroscopic tools used.
Second, the reductive immobilization of Tc(VII) by pure pyrite and a synthetic mixture marcasite-pyrite 60:40 (synthetic FeS2, with both minerals being polymorphs) was studied by a combination of batch sorption experiments (Tc-removal was studied varying pH, contact time, ionic strength and Tc concentration) and several spectroscopies and microscopies such as Raman microscopy, scanning electron microscopy, X-ray photoelectron spectroscopy and
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X-ray absorption spectroscopy. It was found that both pyrite and the synthetic FeS2 promote the reduction of Tc(VII) to Tc(IV). In the case of pure pyrite, the Tc-removal is complete after one day in contact at pH ≥ 5.5. The spectroscopic analysis showed at pH 6.0 an inner-sphere complex between Tc(IV) dimers and hematite formed as secondary mineral on the pyrite surface. In contrast, at pH 10.0 Tc(IV) gets incorporated into surficial magnetite by replacing Fe3+ in octahedral position, with Fe2+ providing reasonable charge compensation for Tc4+.
The presence of marcasite made the process slower and less efficient since the synthetic FeS2 was capable to remove 100% Tc from solution only after seven days in contact at 6.0 < pH ≤ 9.0 while the Tc-removal at pH 10.0 was only around 80%. At pH 6.0 the formation of hematite was also observed, suggesting that the formed Tc(IV) species at the surface is the same as with pure pyrite. However, at pH 10.0 the formation of sulfate minerals evidences a change of redox active species: S2- instead of Fe2+. This, combined with the fact that in both solids the formation of TcSx species was detected by XPS at pH 10.0, shows the potential of sulfur as another reducing agent for Tc(VII). The effect of polymorphism on the Tc removal is remarkable and this work shows the relevance of more studies on the interaction of radionuclei with other mineral polymorphs.
Regardless of the kinetics of the Tc removal, both pyrite and synthetic FeS2 hindered the re-oxidation of Tc(IV) when exposed to ambient atmosphere for two months. This feature makes them good candidates for the remediation of technetium from contaminated waters. Moreover, natural attenuation effects can be expected for technetium in the near and far field of nuclear waste repositories wherever iron sulfide is present.
The results presented in this work contribute to a better understanding of the fundamental aqueous chemistry of technetium and confirm pyrite, a ubiquitous mineral, as a very good candidate for technetium scavenging even in the presence of marcasite. These results close important gaps in thermodynamic databases that are needed for the safety assessment, i.e. modeling of fission products.
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A Novel Reply to the Knowledge Argument : Wiredu's view of Quasi-Physicalism as a positive Reply to JacksonMangadza, Clarton Fambisai January 2019 (has links)
In this thesis I offer a novel alternative response to Frank Jackson’s (1982, 1986) knowledge argument in support of non-reductive physicalism (NRP). The knowledge argument is framed as an attack on reductive physicalism (RP), as it suggests the possibility that the subjective experience (SE) of an event or phenomenon adds ‘real’ knowledge to a person’s existing knowledge. My novel response aims to enrich the current debate, dominated as it is by Western philosophy of mind, by introducing one specific African concept of mind into the debate. The concept of mind I introduce into the debate, is Kwasi Wiredu’s (1987) quasi-physicalist interpretation of the Akan concept of mind. My alternative reply specifically contributes to the debate by changing the negative ability reply to the knowledge argument, framed by Nemirow (1980, 1990) and Lewis (1983, 1988) in Western philosophy of mind, into a positive support for Jackson (1982, 1986) by introducing African voices into the debate. I demonstrate that although the unsolved mind-body problem is presented as an ongoing philosophical issue in Western philosophy, a turn to an African perspective can shine new light on the problem. The novel alternative reply to Jackson’s knowledge argument consists of an epistemological argument that subjective experience (SE) adds genuine knowledge to a person’s existing knowledge, and a metaphysical argument that subjective experience (SE) is an emergent mental property. These two arguments validate property dualism as well as the knowledge argument. / Thesis (PhD)--University of Pretoria, 2019. / CSIR- CAIR 2017-2019
University of Pretoria (UP) Postgraduate Bursary 2018-2019 / Philosophy / PhD / Unrestricted
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Stabilized Photocatalytic Hydrogen Generation using a Molecular Ru(II) Sensitizer, a Molecular Cobalt Catalyst and an Amine Derivative as an Electron DonorOlaiya, Babatunde Samuel 22 August 2013 (has links)
No description available.
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