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Effets de température sur les nanoparticules de CoAg : structure et effets de ségrégationKataya, Zeinab 18 December 2013 (has links) (PDF)
Cette étude a pour objectif de comprendre comment les effets de température, de cinétiques de croissance, ou les effets d'environnement peuvent influencer la structure (cristalline ou non cristalline) et la configuration chimique (mélange/ ségrégation/ séparation de phase) de nanoparticules supportées d'Ag et de CoAg. Pour cela, des nanoparticules de CoAg de différentes tailles et compositions ont été préparées par condensation sous ultravide selon différents modes de croissance (co-dépôt ou dépôts séquentiels des deux métaux). Afin d'accéder à l'ensemble des caractéristiques des nanoparticules, des techniques complémentaires ont été couplées: la diffusion de rayons X aux petits et aux grands angles en incidence rasante et les techniques de microscopie en mode d'imagerie haute résolution ou filtrée en énergie. L'analyse préliminaire de particules d'Ag a montré l'existence de structures cristallines et non cristallines (icosaédriques) pour les petites (2-2.5nm) et grandes tailles (6-8nm). Une dominance de la structure décaédrique a été montrée entre ces deux extrêmes. Cette dernière disparaît complètement lors de l'élaboration en température. Pour le système bimétallique Co-Ag, à température ambiante et indépendamment de la taille, de la composition et du mode d'élaboration, les nanoparticules présentent une ségrégation avec une configuration de type coeur d'argent entouré d'une coquille plus ou moins continue à base de Co métallique et d'oxyde de Co. Lorsque les échantillons sont soumis à un traitement thermique, une transition s'opère conduisant à une ségrégation plus importante de type Janus.
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Induced-Charge Electrokinetic Motion of a Heterogeneous Particle and Its Corresponding ApplicationsDaghighi, Yasaman January 2013 (has links)
This thesis conducts numerical and experimental studies of the nonlinear electrokinetic motion of heterogeneous particles in microfluidic systems and their corresponding applications in laboratory-on-a-chip (LOC) systems. Induced-charge electrokinetic (ICEK) phenomena flow is generated by applying an external electric field to a conducting particle immersed in an aqueous solution. As a result of this field, micro-vortices form around the conducting particle. Using this phenomenon, many shortcomings of classical electrokinetics (e.g. poor mixing, leakage, back flow problem) can be improved.
This thesis proposes and investigates a complete 3-D numerical multi-physics method to calculate the induced zeta potential on the conducting surface of a heterogeneous object. To model the ICEK motion of a heterogeneous particle in a DC electric field, the moving grid technique is used to conduct the particle-fluid simulation. It was numerically shown that the vortices form near the conducting surface of a particle. Both transitional and rotational motions of heterogeneous particles are investigated.
A set of novel experiments are designed and conducted to investigate several aspecs of ICEK. It is demonstrated for the first time that four vortices form around a conducting sphere in contact with an aqueous solution while the DC electric field is applied. The motions of heterogeneous particles are experimentally studied. The speed of a heterogeneous particle is compared with the same size non-conducting particle under the same experimental conditions and it is shown that the heterogeneous particle moves significantly faster than the non-conducting particle. It is also shown that the micro-vortices on the conducting section of the heterogeneous particle act like an engine and push the particle to move faster. These experiments verify the results of our simulation studies.
We introduce three applications for induced-charge electrokinetic phenomena in ths thesis: ICEK micro-valve, ICEK micro-mixer, and ICEK micro-motor, which can be used in microfluidics and lab-on-a-chip devises.
This ICEK micro-valve significantly improves many shortcomings of other micro-valves reported in the literature (such as leakage, considerable dead volume and complicated fabrication processes). Our ICEK micro-mixers take the advantages of induced micro-vortices and boost the mixing process in a micro-channel. As a result well mixed homogeneous (100%) mixture could be obtained at the downstream of the mixer. Our proposed no-contact ICEK micro-motor rotates as long as the DC electric field is being applied.
This thesis develops a new understanding of several ICEK phenomena and applications related to heterogeneous particles. The 3D numerical model developed in this thesis along with the experimental studies are capable of describing the ICEK motion of a heterogeneous particle and is a considerable step to calculate the ICEK phenomena for real-world applications. This thesis, for the first time, experimentally visualized and verified the induced micro-vortices around conducting particles under applied DC electric field. The proposed ICEK micro-mixers, valve and motor can be used in various LOC devices and applications.
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Nanocylindres supramoléculaires formés par association de polymères à blocs promoteurs de liaisons hydrogène / Supramolecular nanocylinders formed by self-assembly of hydrogen bonding amphiphilic block copolymersCatrouillet, Sylvain 18 November 2014 (has links)
L’objectif de cette thèse était d’obtenir des nanocylindres de Janus, particules présentant deux faces différentes, parchimie supramoléculaire. De telles particules seraient très intéressantes comme stabilisant d’émulsions mais sont trèsdifficiles à synthétiser. Notre idée a consisté à utiliser des systèmes auto-associatifs de type bisurée et trisurée, capablesde s’organiser en solution en structures cylindriques par le biais de liaisons hydrogène directionnelles. En décorant cesfonctions de deux bras polymères incompatibles, des propriétés de Janus sont attendues.Tout d’abord, l’étude de l’auto-association en solution de bisurées et trisurées décorées de deux bras polyisobutylène(PIB) identiques a montré que la formation de longs cylindres nécessitait des motifs trisurées s’associant assez fortementpour contrebalancer la gêne stérique des bras PIB. Pour des trisurées décorées de deux bras polystyrène (PS), il estnécessaire de synthétiser des bras PS très courts pour former des cylindres anisotropes, ce qui a été possible en ayantrecours à la polymérisation radicalaire contrôlée.Les résultats précédents ont permis d’identifier une trisurée décorée par un bras PIB et un bras PS court comme candidatidéal à l’élaboration de nanocylindres de Janus. La synthèse d’une telle molécule a été mise au point. Son organisation ensolution a été étudiée par diffusion de lumière, révélant que la taille des objets est principalement contrôlée par les brasPS encombrants. Bien que l’incompatibilité forte entre le PS et le PIB, vérifiée en masse, laisse espérer leur ségrégationde phase en solution, le caractère Janus des particules reste une perspective essentielle de ce travail. / The goal of this thesis was to obtain Janus self assembled nanocylinders. These particles present two different faces andwould be very interesting as emulsion stabilizers but are very difficult to synthesize. Our idea was to use self assemblingsystems based on bisureas and trisureas. These systems are able to self-assemble in solution into cylindrical structuresthrough directional hydrogen bonds. Decorating them by two incompatible polymer arms should lead to Janus properties.First, the study of the self-assembly in solution of bisureas and trisureas decorated by two identical polyisobutylene (PIB)arms has demonstrated that the formation of long cylinders required trisureas, able to develop strong enough hydrogenbonds to counterbalance the steric hindrance of the PIB arms. Trisureas decorated by two identical polystyrene (PS) armsrequired the synthesis of very short PS arms in order to form anisotropic cylinders. This could be achieved usingcontrolled radical polymerization.The previous results allowed the identification of a trisurea decorated by one PIB arm and one short PS arm as idealcandidate for the elaboration of Janus nanocylinders. The synthesis of such a molecule was developed. Its self-assemblyin solution was studied by light scattering, revealing that the size of the objects was mainly controlled by the bulky PSarms. Although the strong incompatibility between PS and PIB, which was evidenced in the bulk, gives hope that thesepolymers will phase segregate in solution, the Janus character of these particles remains an essential outlook of thiswork.
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Polymeric Amphiphilic Nanoparticles Via Intramolecular Chain Collapse Using 1-Functionalized VinylbenzocyclobutenesStorms, William Kenneth 10 September 2015 (has links)
No description available.
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Developing New Strategies for the Preparation of Micro- and Nano-structured Polymer MaterialsNie, Zhihong 19 January 2009 (has links)
This thesis described the development of new strategies for the preparation of micro- and nano-structured polymer materials. In particular, this thesis focused on: i) the synthesis of polymer particles in microreactors, and ii) the self-assembly of inorganic nanorods.
First, this thesis presented the synthesis of polymer particles and capsules with pre-determined sizes and narrow size distributions (CV<2%) in continuous microfluidic reactors. The method includes (i) the emulsification of monomers in a microfluidic flow-focusing device and (ii) in-situ solidification of droplets via photopolymerization. This microfluidic synthesis provides a novel strategy for the control over the shapes, compositions, and morphologies of polymer particles. In particular, we demonstrated the control over particle shapes by producing polymer ellipsoids, disks, rods, hemispheres, plates, and bowls. We produced polymer particles loaded with dyes, liquid crystals, quantum dots, and magnetic nanoparticles. We generated core-shell particles, microcapsules, Janus and three-phasic polymer particles. Control over the number of cores per droplet was achieved by manipulating the flow rates of liquids in the microchannels. We further investigated the hydrodynamic mechanism underlying the emulsification of droplets, which helps in guiding scientists and engineers to utilize this technique.
Second, we described the self-assembly of inorganic nanorods by using a striking analogy between amphiphilic ABA triblock copolymers and the hydrophilic nanorods tethered with hydrophobic polystyrene chains at both ends. We organized metal nanorods in structures with various geometries such as nanorings, nanochains, bundles, bundled nanochains, and nanospheres by tuning solely the quality of solvents. The self-assembly was tunable and reversible. This approach paved the way for the organization of anisotropic nanoparticles by using the strategies that are well-established for the self-assembly of block copolymers. We further described a systematic study of the self-assembly of polymer-tethered gold nanorods as a function of solvent composition in the system and the molecular weight of the polystyrene blocks. We found that the structure of the polymer pom-poms played an important role on the organization of polymer-tethered gold NRs. The 'supramolecular' assembly was governed by the competition between the end-to-end and side-by-side association of NRs and resulted in the controlled variation of the plasmonic properties of NRs, reflected in a 3-D plasmonic graph.
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Developing New Strategies for the Preparation of Micro- and Nano-structured Polymer MaterialsNie, Zhihong 19 January 2009 (has links)
This thesis described the development of new strategies for the preparation of micro- and nano-structured polymer materials. In particular, this thesis focused on: i) the synthesis of polymer particles in microreactors, and ii) the self-assembly of inorganic nanorods.
First, this thesis presented the synthesis of polymer particles and capsules with pre-determined sizes and narrow size distributions (CV<2%) in continuous microfluidic reactors. The method includes (i) the emulsification of monomers in a microfluidic flow-focusing device and (ii) in-situ solidification of droplets via photopolymerization. This microfluidic synthesis provides a novel strategy for the control over the shapes, compositions, and morphologies of polymer particles. In particular, we demonstrated the control over particle shapes by producing polymer ellipsoids, disks, rods, hemispheres, plates, and bowls. We produced polymer particles loaded with dyes, liquid crystals, quantum dots, and magnetic nanoparticles. We generated core-shell particles, microcapsules, Janus and three-phasic polymer particles. Control over the number of cores per droplet was achieved by manipulating the flow rates of liquids in the microchannels. We further investigated the hydrodynamic mechanism underlying the emulsification of droplets, which helps in guiding scientists and engineers to utilize this technique.
Second, we described the self-assembly of inorganic nanorods by using a striking analogy between amphiphilic ABA triblock copolymers and the hydrophilic nanorods tethered with hydrophobic polystyrene chains at both ends. We organized metal nanorods in structures with various geometries such as nanorings, nanochains, bundles, bundled nanochains, and nanospheres by tuning solely the quality of solvents. The self-assembly was tunable and reversible. This approach paved the way for the organization of anisotropic nanoparticles by using the strategies that are well-established for the self-assembly of block copolymers. We further described a systematic study of the self-assembly of polymer-tethered gold nanorods as a function of solvent composition in the system and the molecular weight of the polystyrene blocks. We found that the structure of the polymer pom-poms played an important role on the organization of polymer-tethered gold NRs. The 'supramolecular' assembly was governed by the competition between the end-to-end and side-by-side association of NRs and resulted in the controlled variation of the plasmonic properties of NRs, reflected in a 3-D plasmonic graph.
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Estudo da participação de reguladores negativos endógenos da atividade de STAT1 e STAT3 (SOCS1 e SOCS3) na doença periodontal experimental /Souza, João Antonio Chaves de. January 2010 (has links)
Resumo: A expressão de citocinas inflamatórias é um processo estritamente regulado por mecanismos variados, incluindo o controle da sinalização intracelular e da atividade transcricional por inibidores endógenos, os quais são pouco estudados e compreendidos. Três grupos de proteínas: SHP, PIAS e SOCS inibem de maneira distinta e específica a transdução de sinais pela via JAK/STAT, bem como a atividade dos fatores de transcrição, eventos que modulam a expressão de diversas citocinas. As doenças periodontais estão associadas à inflamação persistente, com elevados níveis de citocinas proinflamatórias, no entanto praticamente não existem informações sobre a participação destes mecanismos de regulação nas diferentes condições clínicas periodontais. Os objetivos deste projeto incluíram avaliar a cinética de expressão das proteínas SOCS1 e SOCS3 e suas proteínas-alvo, STAT1 e STAT3, respectivamente, durante a evolução da doença periodontal. Foram utilizados 36 ratos Wistar divididos em 2 grupos: DP - doença periodontal induzida por 2 métodos: ligaduras ao redor dos 1os molares inferiores e injeções de 60 μg de LPS de E. coli no tecido gengival palatino dos molares superiores, 3x/semana; Grupo controle negativo - recebeu apenas injeções de PBS (veículo). Os ratos foram sacrificados 7, 15 e 30 dias após a indução da doença periodontal para avaliação histológica e análise macroscópica da perda óssea alveolar. A expressão de SOCS1 e SOCS3 e a ativação de STAT1 e STAT3 foram avaliadas nas biópsias gengivais por PCR em tempo real e Western blot. Ambos os modelos apresentaram significante e progressiva perda óssea dos 7 aos 30 dias. A inflamação foi evidente já no período de 7 dias em ambos os modelos, porém enquanto manteve-se similar nos demais períodos no modelo de indução por LPS, apresentou uma diminuição na severidade da inflamação... (Resumo completo, clicar acesso eletrônico abaixo) / Abstract: Inflammatory cytokine gene expression is a process strictly regulated by various mechanisms, including the negative regulation of signaling of cytokine receptors and of the activity of transcription factors such as STATs. These mechanisms involve endogenous proteins and are largely unknown, especially in periodontal diseases. Three groups of proteins, SHP, PIAS and SOCS modulate in a fairly specific manner JAK/STAT signaling and/or STAT activity. Periodontal diseases are infectious-inflammatory conditions of the supporting tissues of the teeth associated with increased levels of proinflammatory cytokines, but there are no information regarding the role of these endogenous mediators of JAK/STAT during its course. The aims of this study included the evaluation of the expression kinetics of inducible negative regulators and their target proteins during the course of experimentally induced periodontal disease. 36 Wistar rats were divided into two groups: PD - experimental periodontal disease induced by two methods: ligature placement around the first mandibular molars and E. coli lipopolysaccharide (LPS) injections into the palatal gingival tissues of the maxillary molars, 3x/week, and Negative Control group. Rats were sacrificed 07, 15 and 30 days after disease induction for histological evaluation of periodontal inflammation and macroscopic analysis of alveolar bone loss. SOCS expression and the activation status of STAT1 and STAT3 were evaluated in gingival biopsies by real time PCR and Western Blot. Both disease models presented significant progressive bone loss from 7 to 30 days. Inflammation was evident and similar for all the periods in LPS injected sites; however, a decrease on severity at the end of the experimental period was observed in the ligature model. There was a significant (p<0.05) increase on SOCS1 and SOCS3 gene expression in PD compared to control... (Complete abstract click electronic access below) / Orientador: Joni Augusto Cirelli / Coorientador: Carlos Rossa Junior / Banca: Carlos Ferreira dos Santos / Banca: Paulo Sergio Cerri / Mestre
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Synthesis of 2D Janus Crystals and their SuperlatticesJanuary 2020 (has links)
abstract: Two dimensional (2D) Janus Transition Metal Dichalcogenides (TMDs) are a new class of atomically thin polar materials. In these materials, the top and the bottom atomic layer are made of different chalcogen atoms. To date, several theoretical studies have shown that a broken mirror symmetry induces a colossal electrical field in these materials, which leads to unusual quantum properties. Despite these new properties, the current knowledge in their synthesis is limited only through two independent studies; both works rely on high-temperature processing techniques and are specific to only one type of 2D Janus material - MoSSe. Therefore, there is an urgent need for the development of a new synthesis method to (1) Extend the library of Janus class materials. (2) Improve the quality of 2D crystals. (3) Enable the synthesis of Janus heterostructures. The central hypothesis in this work is that the processing temperature of 2D Janus synthesis can be significantly lowered down to room temperatures by using reactive hydrogen and sulfur radicals while stripping off selenium atoms from the 2D surface. To test this hypothesis, a series of controlled growth studies were performed, and several complementary characterization techniques were used to establish a process–structure-property relationship. The results show that the newly proposed approach, namely Selective Epitaxy and Atomic Replacement (SEAR), is effective in reducing the growth temperature down to ambient conditions. The proposed technique benefits in achieving highly crystalline 2D Janus layers with an excellent optical response. Further studies herein show that this technique can form highly sophisticated lateral and vertical heterostructures of 2D Janus layers. Overall results establish an entirely new growth technique for 2D Janus.layers, which pave ways for the realization of exciting quantum effects in these materials such as Fulde–Ferrell–Larkin–Ovchinnikov (FFLO) state, Majorana fermions, and topological p-wave superconductors. / Dissertation/Thesis / Masters Thesis Materials Science and Engineering 2020
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Principles and Applications of Thermally Generated Flows at the NanoscaleFränzl, Martin 04 May 2022 (has links)
No description available.
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Deformation of N=4 SYM with space-time dependent couplings / 時空依存性を持つN=4超対称ヤン=ミルズ理論の変形Choi, Jaewang 26 March 2018 (has links)
京都大学 / 0048 / 新制・課程博士 / 博士(理学) / 甲第20904号 / 理博第4356号 / 新制||理||1625(附属図書館) / 京都大学大学院理学研究科物理学・宇宙物理学専攻 / (主査)教授 杉本 茂樹, 教授 川合 光, 准教授 國友 浩 / 学位規則第4条第1項該当 / Doctor of Science / Kyoto University / DFAM
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