Global ETD Search

51	Nouvelles réactions d'hydroboration et d'hydrosilylation par transfert avec des réducteurs renouvelables à base d'acide formique / Novel Transfer Hydroboration and Hydrosilylation Processes with Formic Acid Based Renewable Reductants Chauvier, Clément 16 October 2017 (has links) Les ressources fossiles que sont le gaz ou le pétrole permettent non seulement de couvrir la majeure partie des besoins énergétiques mondiaux, mais fournissent également les briques élémentaires carbonées utiles à des pans entiers de l’industrie chimique. L’utilisation massive de ces combustibles fossiles pose toutefois un problème écologique majeur, le réchauffement climatique, qui se doublera à terme d’un problème de disponibilité de ces ressources. Pour pallier ces difficultés, une des solutions envisagées consiste à abandonner progressivement les hydrocarbures fossiles au profit de ressources carbonées renouvelables telles que le CO₂ ou la biomasse lignocellulosique pour le stockage de l’énergie et/ou comme sources de produits chimiques. Cette entreprise, qui se propose de transformer des substrats fortement oxygénés contenant des liaisons C=O et C–O, requiert fondamentalement un apport d’énergie sous la forme de transferts d’électrons dans des réactions de réduction pour former des liaisons C–H qui préexistent dans les produits dérivés du pétrole. Dans ce contexte, le présent travail doctoral se propose en premier lieu de définir les attributs d’un réducteur renouvelable, c’est-à-dire d’une espèce chimique adaptée à la réduction – limitée à des transferts d’hydrure – de ressources renouvelables oxygénées tel que le CO₂. Les avantages et inconvénients de différentes sources d’hydrure (H₂, acide formique, hydroboranes et hydrosilanes) seront ainsi analysés à la lueur de considérations thermodynamiques et cinétiques et la renouvelabilité de ces réducteurs sera discutée. Dans un second temps, les propriétés réductrices de nouveaux réducteurs renouvelables que sont les formiates de bore et de silicium seront étudiées. Ces composés combinent une source d’hydrure renouvelable, l’acide formique, avec un élément oxophile du groupe principal dont les propriétés stéréoéléctroniques sont modulables. Par un dialogue entre expérience et théorie, il sera démontré que ces composés peuvent avantageusement remplacer les hydroboranes ou hydrosilanes, non renouvelables, dans différents processus réducteurs qui seront unifiés derrière le concept plus général d’hydroélémentations par transfert. / The utilization of cheap and abundant sustainable resources such as carbon dioxide or biomass derivatives as source of fuel and chemicals imposes the development of efficient reduction methods, able to promote the conversion of C-O bonds (π and σ) into C-H bonds in an energy and atom efficient manner. Within the realm of C-O reduction methods, the utilization of main group element-based hydrides (e.g. LiAlH₄ or NaBH₄) has proven highly beneficial in terms of selectivity and versatility in the reduction of various functional groups, including poorly electrophilic CO₂. This behavior not only stems from the positive kinetic attributes of these reductants in hydride transfer reactions but also from the oxophilicity of the main group elements that ensures the reductions are downhill processes. Yet, the latter appealing features comes at an energetic price, and the preparation of main group hydrides mainly relies on energy-demanding processes, which in turn limit the recyclability of these reductants. With the goal in mind to circumvent these limitations while preserving the beneficial properties of the main-group element during reduction, one of the major objectives of the research project presented therein was to study the unknown reductive chemistry of boryl formate and silyl formates. The latter indeed combine a renewable hydride source (formic acid can be obtained by 2e electroreduction of CO₂) linked directly to the main group element by the oxygen atom of the formate, which hints at the recyclability of this class of main group element-based reductants. Through a joint experimental and theoretical study, it will be demonstrated that these compounds can advantageously replace non-renewable hydroboranes or hydrosilanes in various reducing processes, which will be unified behind the more general concept of transfer hydroelementation. Bore Acide formique CO₂ Silicium Hydroboration Hydrosilylation Catalyse homogène Calculs DFT Boron Formic acid CO₂ Silicon Hydroboration Hydrosilylation Homogenous catalysis DFT calculations
52	INVESTIGATION OF CHEMISTRY IN MATERIALS USING FIRST-PRINCIPLES METHODS AND MACHINE LEARNING FORCE FIELDS Pilsun Yoo (11159943) 21 July 2021 (has links) The first-principles methods such as density functional theory (DFT) often produce quantitative predictions for physics and chemistry of materials with explicit descriptions of electron’s behavior. We were able to provide information of electronic structures with chemical doping and metal-insulator transition of rare-earth nickelates that cannot be easily accessible with experimental characterizations. Moreover, combining with mean-field microkinetic modeling, we utilized the DFT energetics to model water gas shift reactions catalyzed by Fe3O4at steady-state and determined favorable reaction mechanism. However, the high computational costs of DFT calculations make it impossible to investigate complex chemical processes with hundreds of elementary steps with more than thousands of atoms for realistic systems. The study of molecular high energy (HE) materials using the reactive force field (ReaxFF) has contributed to understand chemically induced detonation process with nanoscale defects as well as defect-free systems. However, the reduced accuracy of the force fields canalso lead to a different conclusion compared to DFT calculations and experimental results. Machine learning force field is a promising alternative to work with comparable simulation size and speed of ReaxFF while maintaining accuracy of DFT. In this respect, we developed a neural network reactive force field (NNRF) that was iteratively parameterized with DFT calculations to solve problems of ReaxFF. We built an efficient and accurate NNRF for complex decomposition reaction of HE materials such as high energy nitramine 1,3,5-Trinitroperhydro-1,3,5-triazine (RDX)and predicted consistent results for experimental findings. This work aims to demonstrate the approaches to clarify the reaction details of materials using the first-principles methods and machine learning force fields to guide quantitative predictions of complex chemical process. Metal Insulator Transition Explosive Molecules Heterogeneous Catalysts First principle DFT calculations
53	Computational And Experimental Studies Towards The Development Of Novel Therapeutics Against Organophosphorus Nerve Agents: Butyrylcholinesterase And Paraoxonase Vyas, Shubham 12 September 2011 (has links) No description available. Chemistry Physical Chemistry Organophosphorus Compounds Butyrylcholinesterase Acetylcholinesterase Pyridinium Oxime Paraoxonase-1 Excited State Phosphoryl Azide Phosphorylnitrene DFT Calculations RI-CC2 Calculations Molecular Dynamics Molecular Docking
54	3-(2-Benzylbenzoyl)-4(1H)-quinolinones : une nouvelle classe de composés photochromiques photoréversibles / 3-(2-Benzylbenzoyl)-4(1H)-quinolinones : a new class of photoreversible photochromic compounds Larina, Nina 19 November 2010 (has links) Actuellement, les photochromes photoréversibles présentent un intérêt important en vue de leurs applications éventuelles comme interrupteurs optiques ou pour le traitement et le stockage de données. L’objectif principal de ce travail de thèse a été d’évaluer les 3--(2--benzylbenzoyl)--4--quinolones en tant que système photochromique photoréversible. Afin d’étudier la relation entre la structure chimique et le comportement photochromique de ce système, une série de nouvelles 3--(2--benzylbenzoyl)--4--quinolones à substitution variée a été préparée à l’aide de procédures connues ainsi qu’élaborées lors de ce travail. La photoréaction de ces nouveaux molecules étant très complexe, une méthode d’étude a été établie avec des 2--benzyl--3--benzoyl--4--quinolones photoénolisables au comportement plus simple. Leurs spectres d’absorption modélisés à l’aide de fonctions pekariennes ont été comparés avec les résultats des calculs quantiques. Le mécanisme selon lequel la réaction de décoloration se fait par l’ionisation des photoénols fortement acides via protonation des molécules du solvant a été établi. Enfin, la troisième partie est consacrée à l’étude des nouveaux dérivés de quinolones. D’après l’analyse de leurs spectres d’absorption, ainsi que les résultats des calculs quantiques, nous proposons un mécanisme où le transfert d’hydrogène photo--induit conduirait à la formation d’un intermédiaire biradicalaire, capable de se cycliser en dibenzo[b]acrydinones hydroxysubstituées. Un tel mécanisme expliquerait la forte influence qu’ont la nature des substituants en positions 1 et 2, ainsi que la température et la présence d’oxygène sur la régio-- et stéréo--sélectivité de cette photoréaction. / Photoreversible photochromic compounds are currently of considerable interest from the point of view of their potential applications as molecular switches and for data storage and processing. The main target of the present investigation is to evaluate the scope and limitations of 3--(2--benzylbenzoyl)--4--quinolones as a photoreversible photochromic system. In order to investigate the relationship between quinolone chemical structures and photochemical behavior, a large series of new 3--(2--benzylbenzoyl)--4--quinolones with different substituents has been prepared using known as well as newly elaborated synthetic procedures. In the second part of the work a series of simpler photoenolizable 2--benzyl--3--benzoyl quinolones is studied by the means of fitting their UV--Vis absorption spectra and comparison with the results of quantum mechanical calculations at the TD DFT level. It was concluded that the mechanism of the reverse reaction involves ionization of the strongly acidic photoenols via protonation of the solvent molecules. The third part of the work includes investigation of the new quinolone derivatives. From the analyses of their absorption spectra and the results of quantum mechanical calculations, we propose a tentative mechanism, according to which the photoinduced hydrogen transfer yields a biradical, capable of cyclization into the hydroxy substituted dibenzo[b]acrydinones. This mechanism accounts for the observation that the nature of substituents in positions 1 and 2, the temperature and the presence of oxygen strongly affect regio-- and stereoselectivity of the cyclization. Photochromisme 4(1H)-quinolones Reaction de Norrish-Yang Mécanisme réactionnel Spectroscopie d'absorption UV-Visible Calculs quantiques TDDFT Photochromism 4(1H)-‐quinolones Norrish-‐Yang reaction Reaction mechanism UV-‐Vis absorption spectroscopy TD DFT calculations
55	Surfaces d'Alliages Métalliques Complexes à base d'aluminium et de cobalt : structures atomique et électronique, stabilité et adsorption / Surfaces of aluminium - cobalt based Complex Metallic Alloys : atomic and electronic structure, stability and adsorption Alarcon Villaseca, Sebastian 31 October 2011 (has links) Les alliages métalliques complexes (CMAs) sont des composés intermétalliques dont la structure cristallographique diffère des alliages habituels par le nombre conséquent d'atomes dans la cellule unitaire et par l'occurrence d'agrégats de haute symétrie comme briques élémentaires. La structure spécifique des CMAs leur confère des propriétés physico-chimiques originales par rapport aux alliages métalliques plus classiques, en particulier ce qui concerne les propriétés de surface. L'objet de cette thèse est la détermination de la structure atomique et électronique de surfaces d'alliages métalliques complexes à base d'aluminium et cobalt par des méthodes de calcul ab initio basées sur la théorie de la fonctionnelle de la densité. Plusieurs alliages de complexités différentes ont été considérés : Al5Co2, Al9Co2 et o-Al13Co4. Les résultats des calculs réalisés dans ce travail sont confrontés aux données expérimentales.Le manuscrit comporte trois parties. La première partie porte sur les méthodes numériques utilisées. La deuxième partie porte sur l'étude des surfaces nues. Un modèle structural est proposé pour la terminaison des surfaces (001) de Al9Co2 et (100) de o-Al13Co4, qui consiste en un plan dense, riche en aluminium, obtenu par troncature du système massif. Ce résultat est en bon accord avec ce qui a été observé dans le cas des quasicristaux, qui sont un cas particulier de CMAs. Cette étude montre également que pour toutes les surfaces étudiées, la présence d'atomes de cobalt en surface est défavorable. La nature quasi covalente de certaines liaisons présentes dans les CMAs étudiés joue également un rôle fondamental dans la sélection du plan de surface.La troisième partie de ce travail porte sur l'étude de l'adsorption de plomb et d'oxygène atomique sur les surfaces (001) de Al9Co2 et (100) de o-Al13Co4. L'étude réalisée révèle que les atomes de cobalt en surface et en sous-surface exercent une influence sur la détermination des sites d'adsorption préférentiels. La relaxation des atomes du substrat est importante dans le cas de l'adsorption d'oxygène atomique. Les distances Al-O calculées correspondent aux distances typiques d'adsorption d'oxygène atomique à la surface (111)Al, ainsi qu'aux distances Al-O dans l'oxyde Al2O3. Dans le cas de l'adsorption de plomb sur (100)o-Al13Co4, les premières étapes vers la formation d'un film pseudomorphique ont été simulées / Complex metallic alloys (CMAs) are intermetallic compounds whose crystal structure differs from the usual alloys by the number of atoms in the unit cell and the occurrence of high symmetry aggregates as building blocks. The specific structure of CMAs gives them unique physical and chemical properties compared to more conventional metallic alloys, particularly with regard to surface properties.The overall goal of this thesis is the determination of the atomic and electronic surface structure of alumnium-cobalt based complex metal alloys using ab initio calculation methods based on the density functional theory. Several alloys of different complexity were considered: Al5Co2, Al9Co2 and o-Al13Co4. The calculation results of this work are confronted with experimental data.The present manuscript contains three parts. The first part deals with numerical methods. The second part deals with the study of clean surfaces. A structural model is proposed for the termination of the (001)Al9Co2 and (100)o-Al13Co4 surfaces, which consist in a dense aluminum rich plan obtained by bulk truncation. This result is in good agreement with what is observed in the case of quasicrystals – a special case of CMAs. This study also shows that for all surfaces studied, the presence of cobalt atoms on the surface is unfavoured. The quasi-covalent bonds present in the studied CMAs plays a fundamental role in the selection of the surface plane.The third part of this work deals with the adsorption of lead and oxygen atoms on the (001)Al9Co2 and (100)o-Al13Co4 surfaces. The study reveals that the surface and subsurface cobalt atoms influence on the determination of the preferential adsorption sites. The substrate atomic relaxation is important in the case of atomic oxygen adsorption. The calculated Al-O distances correspond to typical atomic oxygen adsorption distances on the (111)Al surface and with the Al-O distances in the Al2O3 oxide. In the case of atomic lead adsorption on the (100)o-Al13Co4 surface, the first step towards the formation of a pseudomorphic film was simulated Alliage Métallique Complexe Structure atomique Structure électronique Surfaces Adsorption Calculs DFT STM LEED XPS UPS Al9Co2 Al5Co2 O-Al13Co4 Complex Metallic Alloys Atomic structure Electronic structure Surfaces Adsorption DFT calculations STM LEED XPS UPS Al9Co2 Al5Co2 O-Al13Co4 546.3 620.11
56	Surfaces et films minces d'alliages métalliques complexes / Surfaces and thin films of complex metallic alloys Duguet, Thomas 28 September 2009 (has links) Après un chapitre d’introduction à propos des alliages métalliques complexes et leurs surfaces, le manuscrit est divisé en deux parties distinctes. La première partie (Chap.II) porte sur la détermination structurale de la surface d’ordre 2 de la phase décagonale Al-Cu-Co par LEED et STM. Les conclusions de ce chapitre indiquent (i) que la surface observée expérimentalement correspond à des terminaisons denses et riches en l’élément de plus faible énergie de surface (Al) et (ii) que la phase serait stabilisée par le terme entropique de l’énergie libre de Helmotz. Dans la deuxième partie de la thèse (Chap.III, IV et V), on applique une approche originale de science des surfaces pour résoudre un problème applicatif : l’adhérence des revêtements quasicristallins sur les substrats métalliques. On propose d’insérer une couche d’accrochage entre le revêtement et le substrat. L’alliage ?-Al4Cu9 est un bon candidat pour réaliser cette interface car il possède des propriétés structurales et électroniques intermédiaires entre un métal et un quasicristal. On élabore donc par MBE des interfaces modèles par adsorption puis recuit de Cu sur le quasicristal i-Al-Cu-Fe, puis d’Al sur Cu(111). Les expériences de photoémission, STM et LEED, ainsi que les calculs de DFT, démontrent la faisabilité d’une interface cohérente entre l’alliage de surface ?-Al4Cu9 et le Cu d’une part, et entre ?-Al4Cu9 et le quasicristal, d’autre part. Ces résultats fondamentaux sont reproduits avec succès dans le domaine applicatif, par l’élaboration de revêtements de phase ? par pulvérisation cathodique magnétron (Chap.V) / After an introductive chapter on complex metallic alloys and surfaces, the thesis is divided into two distinct parts. The first part (Chap.II) concerns the structural determination of the 2-fold surface of d-Al-Cu-Co quasicrystal, by using LEED and STM. The results show (i) that the experimental terraces correspond to dense and Al-rich terminations -the element with the lowest surface energy- and (ii) that this decagonal phase could be entropically stabilized. In the second part of the manuscript (Chap.III, IV and V), we apply a surface science approach to solve a technological bottleneck: the adherence of quasicrystalline coatings on metallic substrates. We propose to grow a buffer layer that would accommodate the differences between the two materials. For that purpose, the ?-Al4Cu9 phase is a good candidate as it shares electronic and structural properties with both substrate and coating. Hence, we synthesize model interfaces by using MBE, first by adsorption and annealing of Cu on the 5-f surface of i-Al-Cu-Fe quasicrystal and then in the Al on Cu(111) system. Photoemission, STM and LEED experiments, along with DFT calculations show that a coherent interface can be grown between the ?-Al4Cu9 surface alloy and both the Cu and the quasicrystal. Those fundamental results are successfully reproduced in the real world, by growing similar interfaces using magnetron sputterring (Chap.V) Alliages métalliques complexes Al-Cu Al-Cu-Co Al-Cu-Fe Calculs DFT Met Ups Xps Leed Stm Quasicristaux Alliages de surfaces, Complex metallic alloys Quasicrystals Approximants Surface alloys Coatings DFT calculations
57	Investigation of higher fullerenes Chang, Kai-Chin 21 February 2013 (has links) Trifluoromethylierung von Mischungen hoeherer Fullerene mit CF3I wurde in Ampullen bei 400-420 Grad Celsius und 500-600 Grad Celsius durchgefuehrt. Die Produktmischungen wurden mittels mehrstufiger HPLC getrennt. In mehreren Versuchen konnten aus den isolierten HPLC-Fraktionen Kristalle fuer die Roentgenstrukturanalyse gewonnen werden. Die folgenden Strukturen der CF3-Derivate der Fullerene C84, C86 und C88 wurden bestimmt: 1 Isomer von C84(4)(CF3)12, C84(11)(CF3)10, C84(11)(CF3)12, C84(11)(CF3)16, C84(16)(CF3)8, C84(16)(CF3)14, C84(18)(CF3)10, C84(18)(CF3)12, C84(22)(CF3)20, C84(23)(CF3)8, C84(22)(CF3)10, C84(22)(CF3)12, C84(22)(CF3)18, C86(17)(CF3)10, C86(17)(CF3)16, C88(33)(CF3)16, C88(33)(CF3)18 und C88(33)(CF3)20. 2 Isomere von C84(22)(CF3)12, C84(22)(CF3)14 und C84(23)(CF3)14. 3 Isomere von C84(11)(CF3)14. 4 Isomere von C84(22)(CF3)16. Die Additionsmuster der Strukturen wurden diskutiert. Die experimentell nachgewiesenen Strukturen wurden mit berechneten Modellstrukturen verglichen. Dabei wurde auch die Stabilitaet der experimentellen Strukturen vorausgesagt. Zusaetzlich wurden die moeglichen Reaktionspfade fuer die Bildung hoeherer Derivate ausgehend von niedrigen Derivaten diskutiert. Sie zeigen, dass die Regioselektivitaet der Addition vom Kaefigisomer abhaengig ist. Die Reaktionspfade von vier Fullerenkaefigen werden in dieser Arbeit vorgestellt. C84(11)(CF3)10 --> C84(11)(CF3)16 C84(22)(CF3)2 --> C84(22)(CF3)20 C84(23)(CF3)10 --> C84(23)(CF3)18 C86(17)(CF3)10 --> C86(17)(CF3)16 / Trifluoromethylation of higher fullerene mixtures with CF3I was performed in ampoules at 400 to 420 degree Celsius and 500 to 600 degree Celsius. The obtained product mixtures were separated by multistep HPLC. Subsequent crystal growth and X-ray diffraction measurements allowed for structural characterization of the CF3 derivatives of fullerenes C84, C86 and C88 listed as the following. 1 isomer of C84(4)(CF3)12, C84(11)(CF3)10, C84(11)(CF3)12, C84(11)(CF3)16, C84(16)(CF3)8, C84(16)(CF3)14, C84(18)(CF3)10, C84(18)(CF3)12, C84(22)(CF3)20, C84(23)(CF3)8, C84(22)(CF3)10, C84(22)(CF3)12, C84(22)(CF3)18, C86(17)(CF3)10, C86(17)(CF3)16, C88(33)(CF3)16, C88(33)(CF3)18 and C88(33)(CF3)20. 2 isomers of C84(22)(CF3)12, C84(22)(CF3)14 and C84(23)(CF3)14. 3 isomers of C84(11)(CF3)14. 4 isomers of C84(22)(CF3)16. The molecular structures of isolated isomers were discussed in terms of their addition patterns and relative formation energies. DFT calculations were used to predict stable molecular structures of the CF3 derivatives. Calculated model structures have been compared with the experimental ones. In addition, the reaction pathways from the lower derivatives to higher ones of selected compounds were predicted. The pathways indicate the regioselectivity of additions depending on the fullerene cage isomer. Reaction pathways are presented for four fullerene cages in this work. C84(11)(CF3)10 --> C84(11)(CF3)16 C84(22)(CF3)2 --> C84(22)(CF3)20 C84(23)(CF3)10 --> C84(23)(CF3)18 C86(17)(CF3)10 --> C86(17)(CF3)16 höhere Fullerene Trifluoromethylierung mehrstufige HPLC Röntgendiffraktometrie DFT Berechnung Reaktionspfade Regioselektivität X-ray diffraction higher fullerenes trifluoromethylation multistep- HPLC DFT calculations reaction pathway regioselectivity 540 Chemie 30 Chemie ddc:540
58	Modélisation structurale des clusters d’alliages supportés : effet du support de silice et effet de taille / Structural modeling of supported alloys clusters : effect of silica substrate and size effect Ngandjong, Alain Cabrel 15 December 2015 (has links) Les simulations numériques ont négligé jusqu’ici l’influence du support de silice amorphe sur la structure des nanoparticules métalliques déposées car l’interaction métal-silice amorphe est faible. Toutefois les études expérimentales montrent un effet de troncature sur la structure des nanoparticules. L’idée de ce travail a donc été d’étudier l’influence de ce support sur la structure et la morphologie des nanoparticules d’argent au moyen de la modélisation moléculaire (Monte Carlo et dynamique moléculaire). L’objectif de ce travail a été tout d'abord de déterminer le potentiel interatomique permettant de décrire l’interaction argent-silice. Ce potentiel a été obtenu sur la base des données expérimentales d'angles de mouillages en phase liquide et en phase solide. D’autre part, l'intensité d'interaction argent-silice a été déterminée par calculs DFT sur la cristobalite qui est un polymorphe de la silice cristalline présentant la même densité que la silice amorphe. Les énergies d'adhésions obtenues ont ainsi permis d'ajuster les paramètres du potentiel argent-silice de type Lennard-Jones. L’étude de la stabilité structurale des nanoparticules d'argent supportées à température nulle a été effectuée pour trois degrés d'approximation du support. (1) : un support parfaitement lisse décrit par un puits carré dont la profondeur est reliée à l’énergie d’adhésion, (2) : un support atomique de silice amorphe de surface plane et (3) : un support atomique de silice amorphe présentant une rugosité de surface. L’influence de la température sur la structure a été étudiée par fusion et recristallisation des nanoparticules d’argent sur les deux supports de silice amorphe. Afin d’étudier la stabilité structurale des nanoparticules en température, le calcul d’énergie libre des nanoparticules a été abordé. / Numerical simulations have so far neglected the influence of amorphous silica substrate on the structure of metallic nanoparticles due to its relatively weak interaction with deposited nanoparticles. However, experimental studies have often shown a truncation effect on the structure of nanoparticles. The idea of this work was to study the influence of this substrate on the structure of silver nanoparticles using molecular modeling (Monte Carlo and molecular dynamics). The objective of this work was firstly to determine silver-silica interatomic potential. This was achieved using experimental data of wetting angles in solid and liquid phase. On the other hand, silver-silica interaction intensity was determined by DFT calculations on cristobalite which is a polymorph of crystalline silica having the same density as amorphous silica. The adhesions energies obtained were used to fit the Lennard-Jones parameters for the silver-silica interaction. The study of the structural stability of silver nanoparticles supported at zero temperature was performed for three levels of approximation of the support. (1): the smooth wall approximation where the support is described by a square-well whose depth is related to the adhesion energy of the nanoparticle, (2): an atomistic model of flat amorphous silica, (3): an atomistic model of rough amorphous silica. The influence of the temperature on the structure was investigated by melting and recrystallization of the silver nanoparticles deposited on the two silica supports. In order to study the temperature stability of the nanoparticles the free energy calculation of the nanoparticles was discussed. Nanoparticules supportées Stabilité structurale Monte Carlo Dynamique moléculaire Interaction métal-support Nanoparticule d’argent Silice amorphe Calculs DFT Supported nanoparticles Structural stability Monte Carlo Molecular dynamics Metal-support interaction Silver nanoparticle Amorphous silica DFT calculations 539.6
59	Charge Transport through Organized Organic Assemblies in Confined Geometries Schuckman, Amanda Eileen 2011 May 1900 (has links) Organic molecules such as porphyrins and alkanethiols are currently being investigated for applications such as sensors, light-emitting diodes and single electron transistors. Porphyrins are stable, highly conjugated compounds and the choice of metal ion and substituents bound to the macrocycle as well as other effects such as chemical surrounding and cluster size modulate the electronic and photonic properties of the molecule. Porphyrins and their derivatives are relatively non-toxic and their very rich photo- and electro-chemistry, and small HOMO-LUMO gaps make them outstanding candidates for use in molecularly-enhanced electronic applications. For these studies, self-assembled tri-pyridyl porphyrin thiol derivatives have been fully characterized on Au(111) surfaces. A variety of surface characterization techniques such as Atomic Force Microscopy (AFM), Scanning Tunneling Microscopy (STM), FT-IR spectroscopy and X-ray photoelectron spectroscopy (XPS) have been implemented in order to obtain information regarding the attachment orientation based on the angle and physical height of the molecule, conductivity which is determined based on the apparent height and current-voltage (I-V) measurements of the molecule, conductance switching behavior due to conformational or other effects as well as the stability of the molecular ensembles. Specifically, the transport properties of free base and zinc coordinated tri-pyridyl porphyrin thiol molecular islands inserted into a dodecanethiol matrix on Au(111) were investigated using STM and cross-wire inelastic electron tunneling spectroscopy (IETS). The zinc porphyrin thiol islands observed by STM exhibited reversible bias induced switching at high surface coverage due to the formation of Coulomb islands of ca. 10 nm diameter driven by porphyrin aggregation. Low temperature measurements (~ 4 K) from crossed-wire junctions verified the appearance of a Coulomb staircase and blockade which was not observed for single molecules of this compound or for the analogous free base. Scanning probe lithography via nanografting has been implemented to directly assemble nanoscale patterns of zinc porphyrin thiols and 16-mercapotohexadecanoic acid on Au surfaces. Matrix effects during nanopatterning including solvent and background SAMs have been investigated and ultimately ~ 10 nm islands of zinc porphyrins have been fabricated which is the optimal size for the observed switching effect. Nanoscale materials and devices nanofabrication chemistry of surfaces molecular electronics charge transport porphyrin alkanethiol self-assembled monolayers (SAMs) Au surfaces scanning probe lithography nanografting STM AFM XPS FT-IR UV-Vis current-voltage (I-V) spectroscopy IETS DFT calculations
60	Análise químico-computacional de sistemas catalíticos a base de paládio contendo ligantes do tipo Brookhart-Guan modificados. / Chemical computational analysis of palladium based catalytic systems containing Brookhart-Guan type liganos. Ferreira, Daví Alexsandro Cardoso 07 March 2008 (has links) We were accomplished modeling employing chemical-computational tools in order to foreknow the influence of a chiral environment on the active center of catalytic diimina Brookhart-Guan modified systems proposed by our Group. These complexes are used to produce branched or linear chains of polyethylene, having ethene as the single monomer. In this study, a computational design of a cyclophane diiminie chiral ligand, Brookhart-Guan modified type, and its respective palladium complex have been attained. Also, a computational studied related to the microstructure of the polyethylene obtained have been achieve. For that, growing chains have been simulated bearing branches that must be correctly oriented due to the esteric and chiral (using the FTFT like ligand) environments present at the active center also, modeling for possibilities of transition state in the insertion step for desired complex. This work can lead to a suitable design of a catalyst, besides to forecast the structural characteristics of the polymers obtained from this type of catalytic system. At the same way, those simulations allow to understand the effect observed in those type of Pd-diimine catalytic complexes for ethane polymerization. / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / Neste trabalho foram realizadas modelagens empregando ferramentas químicocomputacionais, com o objetivo de prever a influência que um ambiente quiral em torno do centro de atividade de sistemas catalíticos Pd-diimínicos do tipo Brookhart-Guan modificados, proposto pelo nosso Grupo. Estes complexos catalíticos podem ser utilizados para a obtenção de cadeias lineares ou ramificadas de polietileno, tendo-se como único monômero o eteno. Neste estudo foi realizado o design computacional de um pré-ligante do tipo ciclofano diimínico quiral, do tipo Brookhart-Guan modificado, e de seu respectivo complexo de paládio. Além disso, foi realizado o estudo computacional relativo à microestrutura do polímero a ser obtido empregando eteno como único monômero. Para tanto, foram modeladas cadeias em crescimento apresentando ramificações que devem ser orientadas em função do ambiente estéreo e assimétrico (usando o ligante FTFT) em torno do centro catalítico, além de modelagens para os possíveis estados de transição na etapa de inserção para o complexo desejado. Este trabalho de poderá proporcionar o adequado design do catalisador, além de prever as características estruturais do polímero obtido com este sistema catalítico. Da mesma forma, as simulações permitem compreender os efeitos observados para catalisadores a base de Pd-diimina na polimerização do eteno. Cálculos DFT Método semi-empírico Polimerização de olefinas Ligantes do tipo ciclofeno Estados de Transição Chain Walking DFT calculations Semiempirical methods Polymerization of olefins Cyclophane type liganos Transition states Chain Walking

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