Global ETD Search

111	Synthèse pallado-catalysée de 5-azaindoles et évaluation de leur activité inhibitrice sur les protéines kinases CK2 et Pim-1 / Palladium-catalyzed synthesis of 5-azaindoles and evaluation of their inhibitory activity on CK2 and Pim-1 kinases Livecchi, Marion 31 October 2013 (has links) L’inhibition de protéines kinases constitue une voie pleine de promesses pour la découverte de nouvelles thérapies ciblées contre le cancer. En 2003, le criblage de la chimiothèque de l’Institut Curie/CNRS a permis de mettre en évidence une famille de composés actifs sur deux de ces enzymes : CK2 et Pim-1. L’objectif de cette thèse était de synthétiser des analogues des « hits » de la chimiothèque possédant le squelette 5-azaindole afin d’en améliorer les propriétés biologiques. La préparation de tels composés étant peu décrite dans la littérature, trois voies de synthèse flexibles et efficaces ont été développées. L’élaboration de 5-azaindoles diarylés symétriques a tout d’abord été mise au point par hétéroannélation pallado-catalysée à partir de dérivés de la 4-aminopyridine. Les composés monosubstitués en position 2 ont ensuite été obtenus par réaction domino sila-Sonogashira/cyclisation 5-endo. Enfin, un procédé one-pot couplage de Sonogashira/aminopalladation/élimination réductrice a permis d’accéder aux molécules diarylées non symétriques avec une régiosélectivité contrôlée. L’application de ces méthodologies a conduit à la préparation de 70 composés fonctionnalisés dont la cytotoxicité et l’activité inhibitrice sur CK2 ont été évaluées. Une étude structure-activité a été réalisée et les fragments d’intérêt que doit posséder une molécule de type 5-azaindole pour inhiber efficacement la kinase ont ainsi été identifiés. / Protein kinases represent promising targets for anti-cancer drug design. In 2003, inhibitors of two of these enzymes, CK2 and Pim-1, were identified by the screening of the Curie Institute/CNRS small-molecule library. The aim of this thesis was to synthesize derivatives of these hits with a 5-azaindole scaffold in order to optimize their biological activity. As the synthesis of such molecules was not reported in the literature, efficient and flexible procedures were developed to access to these structures. Diarylated symmetrical 5-azaindoles were thus prepared by palladium-catalyzed heteroannulation from 4-aminopyridines derivatives. The methodology was subsequently extended to silylalkynes and led to monoarylated products through domino sila-Sonogashira/5-endo cyclization. Finally, a one-pot Sonogashira coupling/aminopalladation/reductive elimination afforded unsymmetrical compounds with a total control of the regioselectivity. Using these methodologies, 70 functionalized molecules were easily prepared. Their cytotoxicity and biological activity as CK2 inhibitors were then evaluated. A structure-activity relationship study was performed, which led to the identification of two key structural elements for the CK2 inhibitory potency of 5-azaindoles. 5-azaindoles Inhibiteurs de protéines kinases CK2 Pim-1 Synthèse pallado-catalysée Hétéroannélation Aminopalladation 5-azaindoles Protein kinase inhibitors CK2 Pim-1 Palladium-catalyzed synthesis Heteroannulation Aminopalladation 572.792
112	The early universe as a probe of new physics Bird, Christopher Shane 05 December 2008 (has links) The Standard Model of Particle Physics has been verified to unprecedented precision in the last few decades. However there are still phenomena in nature which cannot be explained, and as such new theories will be required. Since terrestrial experiments are limited in both the energy and precision that can be probed, new methods are required to search for signs of physics beyond the Standard Model. In this dissertation, I demonstrate how these theories can be probed by searching for remnants of their effects in the early Universe. In particular I focus on three possible extensions of the Standard Model: the addition of massive neutral particles as dark matter, the addition of charged massive particles, and the existence of higher dimensions. For each new model, I review the existing experimental bounds and the potential for discovering new physics in the next generation of experiments. For dark matter, I introduce six simple models which I have developed, and which involve a minimum amount of new physics, as well as reviewing one existing model of dark matter. For each model I calculate the latest constraints from astrophysics experiments, nuclear recoil experiments, and collider experiments. I also provide motivations for studying sub-GeV mass dark matter, and propose the possibility of searching for light WIMPs in the decay of B-mesons and other heavy particles. For charged massive relics, I introduce and review the recently proposed model of catalyzed Big Bang nucleosynthesis. In particular I review the production of Li6 by this mechanism, and calculate the abundance of Li7 after destruction of Be7 by charged relics. The result is that for certain natural relics CBBN is capable of removing tensions between the predicted and observed Li6 and Li7 abundances which are present in the standard model of BBN. For extra dimensions, I review the constraints on the ADD model from both astrophysics and collider experiments. I then calculate the constraints on this model from Big Bang nucleosynthesis in the early Universe. I also calculate the bounds on this model from Kaluza-Klein gravitons trapped in the galaxy which decay to electron-positron pairs, using the measured 511 keV gamma-ray flux. For each example of new physics, I find that remnants of the early Universe provide constraints on the models which are complimentary to the existing constraints from colliders and other terrestrial experiments. cosmology dark matter extra dimensions Big Bang Nucleosynthesis early Universe astrophysics catalyzed nuclear fusion Big Bang model
113	C-2 And C-4 Branched Carbohydrates : (i) Synthesis And Studies Of Oligosacchardes With Expanded Glycosidic Linkage At C-4; (ii) Synthesis Of 2-Deoxy-2-C-Alkyl Glycopyranosides Daskhan, Gour Chand 08 1900 (has links) (PDF) No description available. Carbohydrates Oligosaccharides - Synthesis Glycopyranosides - Synthesis Acid-Catalyzed hydrolysis Glycosidic Bond Stability Glycosides - Hydrolysis Cyclic Oligosaccharides 2-Hydroxy Glycal Ester Glycosidic Bond Organic Chemistry
114	Growth of InAs and Bi1-xSBx nanowires on silicon for nanoelectronics and topological qubits by molecular beam epitaxy / Croissance de nanofils InAs et Bi1-xSbx par épitaxie par jet moléculaire pour des applications nanoélectriques et Qubits topologiques Dhungana, Daya Sagar 09 October 2018 (has links) Grâce à leur propriétés uniques, les nanofils d'InAs et de Bi1-xSbx sont important pour les domaines de la nanoélectronique et de l'informatique quantique. Alors que la mobilité électronique de l'InAs est intéressante pour les nanoélectroniques; l'aspect isolant topologique du Bi1-xSbx peut être utilisé pour la réalisation de Qubits basés sur les fermions de Majorana. Dans les deux cas, l'amélioration de la qualité du matériau est obligatoire et ceci est l'objectif principal cette thèse ou` nous étudions l'intégration des nanofils InAs sur silicium (compatibles CMOS) et où nous développons un nouvel isolant topologique nanométrique: le Bi1-xSbx. Pour une compatibilité CMOS complète, la croissance d'InAs sur Silicium nécessite d'être auto- catalysée, entièrement verticale et uniforme sans dépasser la limite thermique de 450 ° C. Ces normes CMOS, combineés à la différence de paramètre de maille entre l'InAs et le silicium, ont empêché l'intégration de nanofils InAs pour les dispositifs nanoélectroniques. Dans cette thèse, deux nouvelles préparations de surface du Si ont été étudiées impliquant des traitements Hydrogène in situ et conduisant à la croissance verticale et auto-catalysée de nanofils InAs compatible avec les limitations CMOS. Les différents mécanismes de croissance résultant de ces préparations de surface sont discutés en détail et un passage du mécanisme Vapor-Solid (VS) au mécanisme Vapor- Liquid-Solid (VLS) est rapporté. Les rapports d'aspect très élevé des nanofils d'InAs sont obtenus en condition VLS: jusqu'à 50 nm de diamètre et 3 microns de longueur. D'autre part, le Bi1-xSbx est le premier isolant topologique 3D confirmé expérimentalement. Dans ces nouveaux matériaux, la présence d'états surfacique conducteurs, entourant le coeur isolant, peut héberger les fermions de Majorana utilisés comme Qubits. Cependant, la composition du Bi1-xSbx doit être comprise entre 0,08 et 0,24 pour que le matériau se comporte comme un isolant topologique. Nous rapportons pour la première fois la croissance de nanofils Bi1-xSbx sans défaut et à composition contrôlée sur Si. Différentes morphologies sont obtenues, y compris des nanofils, des nanorubans et des nanoflakes. Leur diamètre peut être de 20 nm pour plus de 10 microns de long, ce qui en fait des candidats idéaux pour des dispositifs quantiques. Le rôle clé du flux Bi, du flux de Sb et de la température de croissance sur la densité, la composition et la géométrie des structures à l'échelle nanométrique est étudié et discuté en détail. / InAs and Bi1-xSbx nanowires with their distinct material properites hold promises for nanoelec- tronics and quantum computing. While the high electron mobility of InAs is interesting for na- noelectronics applications, the 3D topological insulator behaviour of Bi1-xSbx can be used for the realization of Majorana Fermions based qubit devices. In both the cases improving the quality of the nanoscale material is mandatory and is the primary goal of the thesis, where we study CMOS compatible InAs nanowire integration on Silicon and where we develop a new nanoscale topological insulator. For a full CMOS compatiblity, the growth of InAs on Silicon requires to be self-catalyzed, fully vertical and uniform without crossing the thermal budge of 450 °C. These CMOS standards, combined with the high lattice mismatch of InAs with Silicon, prevented the integration of InAs nanowires for nanoelectronics devices. In this thesis, two new surface preparations of the Silicon were studied involving in-situ Hydrogen gas and in-situ Hydrogen plasma treatments and leading to the growth of fully vertical and self-catalyzed InAs nanowires compatible with the CMOS limitations. The different growth mechanisms resulting from these surface preparations are discussed in detail and a switch from Vapor-Solid (VS) to Vapor- Liquid-Solid (VLS) mechanism is reported. Very high aspect ratio InAs nanowires are obtained in VLS condition: upto 50 nm in diameter and 3 microns in length. On the other hand, Bi1-xSbx is the first experimentally confirmed 3D topololgical insulator. In this new material, the presence of robust 2D conducting states, surrounding the 3D insulating bulk can be engineered to host Majorana fermions used as Qubits. However, the compostion of Bi1-xSbx should be in the range of 0.08 to 0.24 for the material to behave as a topological insula- tor. We report growth of defect free and composition controlled Bi1-xSbx nanowires on Si for the first time. Different nanoscale morphologies are obtained including nanowires, nanoribbons and nanoflakes. Their diameter can be 20 nm thick for more than 10 microns in length, making them ideal candidates for quantum devices. The key role of the Bi flux, the Sb flux and the growth tem- perature on the density, the composition and the geometry of nanoscale structures is investigated and discussed in detail. EJM Nanofils InAs BiSb Autocatalysée Compatibilité CMOS Isolant topologique 3D MBE Nanowires InAs BiSb Self-catalyzed CMOS compatible 3D topological insulator
115	Syntéza hierarchických zeolitů pro přípravu chemických specialit / Preparation of hierarchical zeolites for fine chemical synthesis Veselý, Ondřej January 2019 (has links) Preparation of hierarchical zeolites for fine chemical synthesis Author: Bc. Ondřej Veselý Supervisor: Mgr. Pavla Eliášová, Ph.D. Prague, 2019 Abstract (in english): The thesis is focused on synthesis of hierarchical (micro-mesoporous) zeolites by several different methods and their application in catalytic reactions. Performance of hierarchical materials prepared by different approaches has been investigated, as well as the effect of framework topology and type of acidity on the outcome of the reactions. The work was elaborated in the Department of Physical and Macromolecular Chemistry of Charles University under the supervision of Mgr. Pavla Eliášová, Ph. D. The work is divided into three parts. In the first part several methods of preparation of hierarchical zeolites have been investigated and compared in catalytic reactions. Desilication, selective removal of silicon from the framework, is a post-synthetic method that can be used to introduce additional mesoporosity into a zeolite. The process leads to formation of mesopores by introducing defects into the zeolite structure. The resulting mesopore size is very broad. To partially control the pore size, alkylammonium cations may be added to the solution to protect the crystal surface. The desilication was performed on MTW zeolite which contains...
116	Synthesis and Application of New Chiral Ligands for Enantioselectivity Tuning in Transition Metal Catalysis Kong, Fanji 08 1900 (has links) A set of five new C3-symmetric phosphites were synthesized and tested in palladium-catalyzed asymmetric Suzuki coupling. The observed reactivity and selectivity were dependent upon several factors. One of the phosphites was able to achieve some of the highest levels of enantioselectivity in asymmetric Suzuki couplings with specific substrates. Different hypotheses have been made for understanding the ligand effects and reaction selectivities, and those hypotheses were tested via various methods including DOSY NMR experiments, X-ray crystallography, and correlation of catalyst selectivity with Tolman cone angles. Although only modest enantioselectivities were observed in most reactions, the ability to synthesis these phosphites in only three steps on gram scales and to readily tune their properties by simple modification of the binaphthyl 2´-substituents makes them promising candidates for determining structure-selectivity relationships in asymmetric transition metal catalysis, in which phosphites have been previously shown to be successful. A series of novel chiral oxazoline-based carbodicarbene ligands was targeted for synthesis. Unfortunately, the chosen synthetic route could not be completed due to unwanted reactivity of the oxazoline ring. However, a new and efficient route for Pd-catalyzed direct amination of aryl halides with oxazoline amine was developed and optimized during these studies. Chiral binaphthyl based Pd(II) ADC complexes with different substituent groups have been synthesized and tested in asymmetric Suzuki coupling reactions. Although only low enantioselectivities were observed in Suzuki coupling, this represents a new class of chiral metal-ADC catalysts that could be tested in further catalytic. Transition metal catalysis Enantioselective catalysis C3-symmetric phosphites Diffusion-Ordered Spectroscopy Acyclic diaminocarbenes Oxazoline Pd-catalyzed amination Transition metal catalysts. Enantioselective catalysis. Chirality.
117	Effects of Protein Content on Pickering-assisted Interfacial Enzyme Catalysis Plikat, Christoph, Drews, Anja, Ansorge-Schumacher, Marion B. 11 June 2024 (has links) In recent years, water-in-oil Pickering emulsions have been introduced as promising reaction systems for multiphase enzyme catalysis, in particular lipase-catalyzed esterification and transesterification. Here, we for the first time gained insight into the effects that the presence of the proteins exert on the fineness and stability of the emulsion system and thus, the catalytic performance. We demonstrated a distinct, concentration-and enzyme-dependent decrease of droplet sizes in the dispersed phase, accompanied by decreasing stability against coalescence. This was due to a probably quantitative adsorption of lipases at the interphase intercalating the solid particles. Destabilization was reduced slightly at increased particle content and increased volume portion of the dispersed phase, respectively. However, the low tolerable lipase concentrations in the reaction system considerably limited its productivity. Thus, our study points at the enzyme content, or rather enzyme location, in Pickering emulsions being the crucial parameter for optimizing catalytic performance. info:eu-repo/classification/ddc/540 ddc:540
118	Synthesis and Characterization of Multiblock Copolymers for Proton Exchange Membrane Fuel Cells (PEMFC) Wang, Hang 25 January 2007 (has links) Nanophase-separated hydrophilic-hydrophobic multiblock copolymers are promising proton exchange membrane (PEM) materials due to their ability to form various morphological structures which enhance transport. Four arylene chlorides monomers (2,5-Dichlorobenzophenone and its derivatives) were first successfully synthesized from aluminum chloride-catalyzed, Friedel-Crafts acylation of benzene and various aromatic compounds with 2,5-dichlorobenzoyl chloride. These monomers were then polymerized via Ni (0)-catalyzed coupling reaction to form various high molecular weight substituted poly(2,5-benzophenone)s. Great care must be taken to achieve anhydrous and inert conditions during the reaction. A series of poly(2,5-benzophenone) activated aryl fluoride telechelic oligomers with different block molecular weights were then successfully synthesized by Ni (0)- catalyzed coupling of 2,5-dichloro-benzophenone and the end-capping agent 4-chloro-4'-fluorobenzophenone or 4-chlorophenly-4′-fluorophenyl sulfone. The molecular weights of these oligomers were readily controlled by altering the amount of end-capping agent. These telechelic oligomers (hydrophobic) were then copolymerized with phenoxide terminated disulfonated poly (arylene ether sulfone)s (hydrophilic) by nucleophilic aromatic substitution to form novel hydrophilic-hydrophobic multiblock copolymers. A series of novel multiblock copolymers with number average block lengths ranging from 3,000 to 10,000 g/mol were successfully synthesized. Two separate Tgs were observed via DSC in the transparent multiblock copolymer films when each block length was longer than 6,000 g/mol (6k). Tapping mode atomic force microscopy (AFM) also showed clear nanophase separation between the hydrophilic and hydrophobic domains and the influence of block length, as one increased from 6k to 10k. Transparent and creasable films were solvent-cast and exhibited good proton conductivity and low water uptake. These PAES-PBP multiblock copolymers also showed much less relative humidity (RH) dependence than random sulfonated aromatic copolymers BPSH 35 in proton conductivity, with values that were almost the same as Nafion with decreasing RHs. This phenomenon lies in the fact that this multiblock copolymer possesses a unique co-continuous nanophase separated morphology, as confirmed by AFM and DSC data. Since this unique co-continuous morphology (interconnected channels and networks) dramatically facilitates the proton transport (increase the diffusion coefficient of water), improved proton conductivity under partially hydrated conditions becomes feasible. These multiblock copolymers are therefore considered to be very promising candidates for high temperature proton exchange membranes in fuel cells. / Ph. D. Ni (0)-catalyzed coupling reaction Poly(benzophenone) Proton Exchange Membranes Fuel Cells Poly(p-phenylene) Morphology Multiblock Copolymers
119	Synthesis of 2-Substituted-Pyrazolo[1,5-a]pyridines from N-Iminopyridinium Ylides Fortier, Angélique 01 1900 (has links) Cette thèse décrit le développement et la méthodologie pour la synthèse de 2-pyrazolo[1,5-a]pyridines à partir d’ylures de N-iminopyridinium et d’halogénures de styryle. Des dérivés de chaque ylure de N-iminopyridinium et d’halogénures de styryle ont été utilisés pour la synthèse de plusieurs composés avec un intérêt pharmaceutique. Le premier chapitre présente les précédents littéraires pour la synthèse de pyrazolopyridines. Spécifiquement trois types différents de synthèse seront présentés en détail. L’importance biologique de ces composés sera discutée. La vue d’ensemble des travaux développés dans notre groupe de recherche pour la synthèse des produits de départ sera présentée brièvement. Finalement, la science intéressante qui a apporté cette idée de recherche sera révélée. Le deuxième chapitre décrit les résultats des optimisations étudiées pour la synthèse des 2-phénylpyrazolo[1,5-a]pyridines à partir d’ylures de N-benzoyl-iminopyridinium et d’iodure de styryle. Chaque substrat de la réaction a été étudié individuellement afin d’être optimisé; les ratios, les solvants, la température du milieu réactionnel et le temps optimal de la réaction ont aussi été explorés. Le troisième chapitre présente l’étendue de la synthèse des pyrazolopyridines. L’étendue de la réaction inclut les dérivés des halogénures de styryle. L’étendue de la réaction a été élargie aux dérivés d’ylures de N-iminopyridinium et ils incluent des groupements donneurs d’électrons ainsi que des groupements pauvres en électrons. Des groupements exotiques d’iodure et de bromure de vinyle ont aussi été explorés. Le quatrième chapitre démontre les études mécanistiques que l’on a faites pour mieux comprendre les cycles catalytiques qui ont lieu durant la réaction. Des études de cyclisation avec les ylures de N-iminopyridinium ont été explorées pour les produits de départ suivants : iodure de styryle et phényl acetylène. / This thesis describes the development of a methodology for the one-pot synthesis of 2-pyrazolo[1,5-a]pyridines from N-iminopyridinium ylide and styryl-halide starting materials. Both N-iminopyridinium ylide derivatives and styryl-halide derivatives were employed for the synthesis of various pharmaceutically interesting pyrazolo[1,5-a]pyridines. The first chapter presents the literature precedents for the synthesis of pyrazolopyridines. More specifically, three different types of syntheses will be shown in detail. Furthermore, the biological importance of these compounds will be discussed. An overview of the developed methodologies previously carried out in our research group for the synthesis of the starting materials will be presented. Finally, the copper-catalyzed direct alkenylation of N-iminopyridinium ylides that brought about this research idea will be discussed. The second chapter describes the results of the optimization studies for the synthesis of 2-phenyl pyrazolo[1,5-a]pyridines from N-benzoyliminopyridinium ylides and styryl iodides. Each component of the reaction was individually screened and the loading ratios were optimized: e.g., solvent and temperature. The third chapter presents the scope of the pyrazolopyridine synthesis. The scope includes styryl iodide, –bromide and –chloride derivatives. The scope of the reaction was extended to N-iminopyridinium ylide derivatives and included electron donating and electron withdrawing groups. Substituted vinyl iodides and bromides were also investigated. The fourth chapter demonstrates the mechanistic studies conducted in order to obtain an accurate understanding of the catalytic cycles taking place during the reaction. Cyclization studies were explored for both styryl iodides and phenyl acetylene starting materials reacted with N-iminopyridinium ylides. Pyrazolo[1,5-a]pyridines N-benzoyliminopyridinium ylides Styryl iodides Insertion C-H catalyser par le palladium Rearomatization Cyclization Palladium catalyzed C-H insertions Ylures de N-benzoyl-iminopyridinium Iodure de styryle Réaromatization Cyclisation
120	Etude expérimentale et théorique des couplages de type Ugi et nouvelles réactions de post condensations / Experimental and theoretical study of Ugi type couplings and new post-condensation reactions Ramozzi, Romain 30 September 2013 (has links) Les réactions de type Ugi sont connues depuis une cinquantaine d’années. Ces réactions multicomposants mettent en jeu un aldéhyde, une amine, un isonitrile ainsi qu’un dérivé acide (acide carboxylique ou phénol activé). Dans ces travaux, la structure électronique des isonitriles, composé au coeur de ces réactions a été étudiée. La forme carbénique RN=C s’est révélée majoritaire contrairement à toute attente. La linéarité de la molécule a pu être interprétée grâce aux contributions des formes minoritaires. La seconde partie s’est focalisée sur l’étude théorique et expérimentale des couplages de type Ugi. Contrairement à la réaction de Ugi-Smiles, le réarrangement final de la réaction de Ugi, un réarrangement de Mumm, s’est révélé non cinétiquement déterminant. L’importance du rôle de l’environnement a été étudiée par le biais d’une microsolvatation. La compréhension accrue de la réaction de Ugi-Smiles a fait émerger deux nouveaux partenaires acides : les trichlorophenols et les nitrosophenols. Les premiers ont permis d’isoler pour la première fois desaryl-imidates de phénol. Les seconds ont été utilisés pour développer une nouvelle voie de synthèse debenzimidazoles à partir des adduits de Ugi-Smiles correspondants. Enfin, les adduits de type Ugi ont été mis à profit pour développer une nouvelle réaction palladocatalysée d’ouverture d’aminocyclopropanes. Cette ouverture conduit à l’accès rapide de produits hétérocycliques dont des tétracycles complexes suite à une réaction tandem impliquant un couplagede Heck. / Ugi type reactions are well known for decades. These multicomponent reactions involve an aldehyde,an amine, an isocyanide and an acid compound (carboxylic acid or activated phenol). Herein, electronicstructure of isocyanides, as key compounds of these reactions, was studied. Surprisingly, thecarbenic form RN=C was found to be the major one. Contribution of minor mesomeric structureexplains the linearity of the molecule. Then, Ugi and Ugi-Smiles couplings were studied theoreticallyand experimentally. Contrary to the Ugi-Smiles reaction, the final rearrangement of the Ugi coupling,a Mumm one, was not found to be a rate determining step. Importance of microsolvation was investigated.The comprehension of the mechanism of Ugi-Smiles reaction prompted us to investigatetheoretically new acidic partners. Trichlorophenols permitted to isolate the aryl-imidate for the firsttime with a phenol. Nitrosophenols were also considered. Confirmed experimentally, these new adductswere used to propose a new synthesis of benzimidazole. Finally, Ugi type adducts have been used todevelop a new palladium-catalyzed ring-opening of aminocyclopropanes. Rapid access to heterocycliccompounds, such as complex tetracycle with a tandem Heck coupling, can be obtained by this strategy. Réaction de Ugi Isonitriles Mécanisme Structure électronique DFT Théorie de la liaison de valence Ugi type reactions Isocyanides Mechanism Electronic structure DFT Valence Bond theory 540

Search results