Global ETD Search

11	Optimisation du procédé de séchage d’organogels par le dioxyde de carbone supercritique / Optimization of organogel drying process with supercritical carbon dioxide Lazrag, Mouna 12 December 2016 (has links) Le séchage d’organogels, gels composés d’un organogélateur de type acide aminé dissous dans un solvant, conduit à la formation d’aérogels, solides très légers et très poreux. Ces aérogels constituent entre autres de très bons isolants thermiques. La préparation des aérogels nécessitent plusieurs étapes. Ce procédé supercritique est composé de trois étapes : préparation de CO2 supercritique, séchage d’organogel dans l’autoclave en le balayant par un courant de CO2 et séparation de CO2-solvant au sein d’une cascade de trois séparateurs cyclones. Dans cette étude, les deux dernières étapes ont été abordées afin d’optimiser les paramètres du procédé. Les solvants utilisés sont la tétraline et le toluène. La cinétique de séchage au sein de l’autoclave a été étudiée, trois approches différentes ont été explorées : le transport de tétraline dans le CO2 supercritique au sein du gel est gouverné uniquement par le phénomène de diffusion dans les deux premières, il est régi par les phénomènes de diffusion et de convection dans la troisième approche. Les équations de transfert de matière ont été résolues à l’aide de deux logiciels numériques Matlab et ANSYS-Fluent. La troisième approche semble donner les résultats les plus cohérents avec les résultats expérimentaux. La compréhension des raisons du dysfonctionnement des séparateurs cycloniques en aval de l’autoclave pour le cas du toluène a nécessité deux études : une étude hydrodynamique MFN a permis de simuler le transport des fluides au sein du premier séparateur cyclone, à l’aide du logiciel ANSYS-Fluent. Cette étude a montré que le toluène liquide n’était pas entraîné dans la sortie gaz du cyclone, indiquant ainsi que l’hydrodynamique favorise la séparation. Afin d’expliquer ce dysfonctionnement, une étude thermodynamique portant sur les deux solvants, toluène et tétraline a été réalisée. La séparation cyclonique a été considérée comme un simple étage théorique et simulée avec le logiciel PRO/II. Cette étude a bien expliqué les résultats expérimentaux pour les deux solvants et a permis d’optimiser les paramètres du procédé / Drying of organogels, gels composed of an organogelator such as amin acids dissolved in a solvent, leads to the formation of aerogels, very light solids with high porosity. These aerogels are expected to be very good heat insulating materials. Preparation of aerogels includes several steps. This process consists of three steps: preparation of supercritical CO2, drying of the gel in an autoclave with a CO2 flow and CO2-solvent separation carried out in a cascade of three separators. In this study both the last steps were discussed in order to optimize the process parameters. The used solvents are tetralin and toluene. The drying kinetic in the autoclave was studied, three different approaches have been exploited. Tetralin transport in supercritical CO2 within the gel is governed only by the diffusion phenomenon in the first two approaches, although, it is governed by diffusion and convection phenomena in the third approach. The mass transfer equations were solved by two numerical software Matlab and ANSYS-Fluent. It seemed that the third approach gave the most consistent results with experimental results. The understanding of the malfunction reasons of cyclonic separators downstream from the autoclave for the case of toluene required two studies: A CFD hydrodynamic study was used to simulate the fluids transport within the first cyclone separator, using the ANSYS-Fluent software. This study showed that the liquid toluene was not carried over into the gas outlet of the cyclone, indicating that hydrodynamic promotes the separation. For this reason, a thermodynamic study of both solvents, toluene and tetralin was performed. Cyclonic separation was regarded as a simple theoretical stage and simulated with PRO / II software. This study has explained very well the experimental results for both solvents and allowed to optimize the process parameters Organogel Séchage supercritique Aérogel Séparation CO2-Solvant Diffusion et convection Hydrodynamique MFN Thermodynamique Organogel Supercritical drying Aerogel CO2-Solvent separation Diffusion and convection Hydrodynamic CFD Thermodynamic 541.345 660.284 26
12	Obtenção de gel PLO contendo rutina para aplicação transdérmica : caracterização, estabilidade e atividade antioxidante / Obtaining containing rutin gel PLO for transdermal application: characterization, stability and antioxidant activity Andrade, Valléria Matos 03 March 2017 (has links) Conselho Nacional de Pesquisa e Desenvolvimento Científico e Tecnológico - CNPq / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior - CAPES / Rutin is a flavonoid widely reported in the literature for its antioxidant properties, anti-inflammatory, vasoprotective, antithrombogen, among others. However, its low solubility in aqueous media reduces its bioavailability orally and, therefore, transdermal administration proves to be promising. Thus, the present work aimed to obtain, characterize and evaluate an activity and antioxidant activity of a gel. PLO (Pluronic Lecithin Organogel) containing rutin for transdermal administration.The analytical methodology for rutin quantification was developed and validated by high performance liquid chromatography (HPLC). Initially it was evaluated as an influence of the concentration of Polaxamer 407, obtained by the extrusion method with the aid of syringes, in front of the centrifugation test. The formulation that remained stable after the test was characterized by partical size determination, in vitro release study, in vitro skin penetration study, in vitro skin adhesion study. Also assessed for stability for 60 days at varying temperatures and at predetermined times, physico-chemical characteristics such as pH, density, viscosity and spreadability, as well as organoleptic characteristics, were evaluated. The antioxidant activity of the formulation was evaluated by the TRAP and TAR methods, comparing it with a positive control, Trolox. The results demonstrate that a formulation with higher concentration of Polaxamer is more stable and that is why it was characterized. The partical size were perfect for dermal administration. The formulation demonstrated controlled release of the drug after 24 hours, being able to permeate as deeper layers of the skin and to be absorbed into the systemic circulation, in addition to good adhesion to the skin surface. During the accelerated stability study, as formulations stored at low temperature, they underwent small variations in density, viscosity and spreadability relative to those stored at room temperature, while the pH remained stable throughout and favorable for application in skin. However, as observed variations were not sufficient to cause visual signs of instability. As for the antioxidant activity, a formulation showed greater activity in relation to the Trolox control and the free rutin, but it was not able to sustain an activity for a longer time, presenting a lower TAR value than Trolox. Thus, a chosen formulation has been shown capable of promoting a permeation of the rutin by transdermal route in a controlled manner, as well as being stable at an ambient temperature and having more significant antioxidant activity than the free rutin, and is therefore promising to administration of rutin by this route. / A rutina é um flavonoide bastante estudado devido principalmente as suas propriedades antioxidantes, anti-inflamatória, vasoprotetora e antitrombogência. No entanto, sua baixa solubilidade em meio aquoso reduz sua biodisponibilidade por via oral e, portanto, a administração por via transdérmica pode ser uma alternativa promissora. Dessa forma, o presente trabalho teve por objetivo obter, caracterizar e avaliar a estabilidade e a atividade antioxidante de um gel contendo Pluronic Lecithin Organogel (PLO) contendo rutina, para administração pela via transdérmica. A metodologia analítica para quantificação de rutina foi desenvolvida e validada por cromatografia líquida de alta eficiência (CLAE). Inicialmente foi avaliado qual a influência da concentração do Polaxamer 407, obtidos pelo método de extrusão com auxílio de seringas, frente ao teste de centrifugação. A formulação que permaneceu estável após o teste foi caracterizada através da determinação do tamanho de partícula, estudo de liberação, penetração cutânea e adesão à pele, todos in vitro. Foi também avaliada a estabilidade do produto durante 60 dias em variadas temperaturas em tempos pré-determinados, além das análises físico-químicas, como pH, densidade, viscosidade e espalhabilidade, bem como características organolépticas. A atividade antioxidante da formulação foi determinada pelos métodos TRAP e TAR, em comparação com um controle positivo, o Trolox. Os resultados demonstraram que a formulação contendo maior concentração de Polaxamer é mais estável e por isso esta foi caracterizada. O tamanho de partícula encontrado foi 4,33 μm e o sistema se mostrou homogêneo, ideal para administração cutânea. A formulação demonstrou liberação controlada do fármaco após 24 horas, sendo capaz de permear as camadas mais profundas da pele e ser absorvida para circulação sistêmica, além de boa adesão à superfície da pele. Durante o estudo de estabilidade acelerada, as formulações armazenadas em baixa e alta temperatura, sofreram pequenas variações na densidade, na viscosidade e na espalhabilidade, em relação àquelas armazenadas a temperatura ambiente, enquanto que o pH se manteve estável durante todo o tempo e favorável à sua aplicação na pele. Além disso, as variações observadas não foram suficientes para provocar alterações visuais de instabilidade. Quanto à atividade antioxidante, a formulação demonstrou maior atividade em relação ao controle Trolox e à rutina livre, porém de forma não duradoura, apresentando valor de TAR menor que o Trolox. Sendo assim, a formulação escolhida, demonstrou-se capaz de promover a permeação da rutina por via transdérmica de forma controlada, bem como estabilidade a temperatura ambiente e com atividade antioxidante significativa, sendo considerada então promissora a administração da rutina por esta via. / São Cristóvão, SE Rutina Medicação transdérmica Antioxidantes Administração transdérmica Pluronic Lecithin Organogel (gel PLO) Rutin Transdermal administration Pluronic Lecithin Organogel (PLO gel) CIENCIAS BIOLOGICAS::FARMACOLOGIA
13	Architectures électroactives polyfonctionnelles à base tétrathiafulvalène : Xérogels conducteurs et contrôle conformationnel à travers les relais calixarène et biphényle Canevet, David 29 January 2010 (has links) (PDF) Le tétrathiafulvalène (TTF) est un composé organique remarquable de par la simplicité de sa structure et la diversité de ses applications. Depuis près d'une quarantaine d'années, ce donneur d'électrons-π a stimulé la recherche autour de matériaux cristallins conducteurs voire supraconducteurs. Tout récemment, le TTF a fait son apparition dans de nouveaux types de matériaux organiques, les organogels. La première partie de ce travail décrit la conception et l'optimisation structurale des premiers précurseurs d'organogels multifonctionnels à base TTF. L'étude des différents paramètres structuraux gouvernant la formation des organogels et la caractérisation des xérogels correspondants, par différentes techniques de microcopie, est présentée. La robustesse de ces gels est illustrée par leur persistance après oxydation à l'iode, fournissant des xérogels conducteurs. La présence d'unités pyrène au sein des molécules gélifiantes a également permis une incorporation maîtrisée de nanotubes de carbone simple paroi (NTC). Ces premiers exemples de xérogels conducteurs intégrant des NTCs présentent une morphologie et des propriétés conductrices remarquablement modifiées par rapport aux gels qui en sont dépourvus, traduisant un effet positif de structuration du gel par les NTCs. La multifonctionnalité de ces composés associant sites redox, de complexation et fluorophores, leur confère également un intérêt vers la préparation de portes logiques moléculaires, pour lesquelles une étude des paramètres initiaux (électrochimie, fluorescence) est réalisée. La seconde partie de ce travail s'inscrit dans la continuité, par la synthèse de différentes architectures moléculaires conformationnellement flexibles, associant le TTF et différents motifs accepteurs ou fluorophores sur la périphérie d'édifices calix[4]arène ou biphényle. Différents aspects du comportement dynamique de ces systèmes, ainsi que la synthèse de nouvelles briques moléculaires sont explorés. [CHIM] Chemical Sciences Tétrathiafulvalène Organogel Xérogel Calixarène Biphényle Microscopie électronique Voltammétrie cyclique Fluorophore Reconnaissance d'anions
14	Photo-Curing Behavior and Thermal Properties of Silicone Semi Interpenetrating Polymer Network (Semi-IPN) Organogels Kaymakci, Orkun 04 January 2013 (has links) Silicone hydrogels are receiving considerable interest due to their important biomedical application areas such as contact lenses and wound dressings. The applications of such materials are usually in the hydrated state, as hydrogels. However, manufacturing and molding processes are mostly carried out in the organically solvated state, as organogels. This thesis investigates the effects of some of the manufacturing parameters such as curing time and thermal processing on thermal, mechanical, viscoelastic and adhesive/cohesive fracture properties of silicone semi-interpenetrating polymer network organogels. Curing time may affect the extent of reaction and the crosslink density of a gel network. In order to investigate the effect of this parameter, materials were photo-cured for different times within the range of 150s to 1800s. Gel content, uniaxial tensile, dynamic mechanical, adhesive fracture and cohesive fracture properties were obtained as a function of photo-curing time and results were correlated with each other in order to have a better understanding of the effects on the material properties. Additionally, thermal properties of the gels were studied in detail. Crystallization and melting behavior of one of the solvents in the organogel were investigated by differential scanning calorimetry and thermal optical microscopy. Correlation between the thermal properties of the solvent and the gel network structure was shown. Dynamic mechanical analysis experiments were performed to investigate the effect of solvent crystallization on the mechanical properties. Finally, the effect of thermal processing parameters such as the heating rate and the minimum cooling temperatures on the crystallization and the thermo-mechanical properties were studied. / Master of Science organogel semi-interpenetrating polymer network photo-curing modulus adhesive/cohesive fracture dynamic mechanical analysis
15	Phase Behavior Study and Thermoresponsive Bilayer Fabrication of Organogels Lai, Tzu-Yu 09 July 2020 (has links) No description available. Materials Science Polymers
16	Evaluation of the Percutaneous Absorption of Chlorpromazine Hydrochloride from PLO Gels Across Porcine Ear and Human Abdominal Skin Alsaab, Hashem O. January 2015 (has links) No description available. Pharmaceuticals Pharmacy Sciences
17	Etude physico-chimique d’organogels et d’aérogels de faible poids moléculaire dérivés d’acides aminés / Physico-chemical study of amino-acid-based low-molecular-weight organogels and aerogels Allix, Florent 14 June 2011 (has links) Ce travail décrit la synthèse et les propriétés gélifiantes de nouveaux dérivés d’acides aminés de faible poids moléculaire dans des solvants organiques ainsi que l’élaboration d’aérogels correspondants par séchage au CO2 supercritique. Nous avons pu montrer, dans notre cas, que seuls les dérivés de la leucine et de la phénylalanine étaient nécessaires au phénomène de gélation. L’étude des paramètres des solvants a permis de montrer que les paramètres de Hansen h des solvants gélifiés s’inscrivaient dans un domaine étroit de valeurs faibles ; il inclut des solvants aromatiques et des solvants chlorés. L’usage de spectroscopies diverses (IR, RMN, dichroïsme circulaire et fluorescence) a permis de mettre en évidence les interactions responsables du phénomène de gélation. Les liaisons hydrogène permettent l’empilement unidimensionnel des molécules gélatrices, ces empilements s’associent ensuite grâce à des interactions de - stacking intercolonnaires. Des aérogels monolithiques ont pu être obtenus. Ils présentent des propriétés remarquables parmi lesquelles une conductivité thermique sous vide extrêmement faible / This work describes the synthesis and the gelation properties of new amino-acid-based low-molecular-weight derivatives in organic solvents as well as the development of the corresponding aerogels by supercritical CO2 drying. We have proved that in our case the presence of phenylalanine or leucine lateral chains were necessary for gelation. A solvent parameters study led us to define a favourable narrow h Hansen parameter domain for gelation including aromatic and chlorinated solvents. The use of several spectroscopy methods (IR, NMR, circular dihroism and fluorescence) allowed to settle the interactions accountable for gelation phenomenon. Hydrogen bonds enable the unidimensional stacking-up of gelator molecules; next, the stacking-up are associated through intercolumnar - stacking interactions. Monolithic aerogels were obtained. They display noteworthy properties among them an extremely low thermal conductivity under vacuum Gélation Organogel Aérogel Acide aminé Paramètres de Hansen Infrarouge Résonance magnétique nucléaire Dichroïsme circulaire Fluorescence CO2 Supercritique Isolant thermique Gelation Organogel Aerogel Amino-acid Hansen parameters Infrared spectroscopy Nuclear magnetic resonance Circular dichroism Fluorescence Supercritical CO2 Thermal insulator 541.35
18	Reduction of Saturated Fat in Finely Comminuted and Ground Meat Products by use of Canola Oil Organogels and the effect on Organoleptic Qualities, Texture and Microstructure Wood, John 13 May 2013 (has links) The main goal of this research was to determine the effectiveness of saturated fat replacement by means of a canola oil oleogel, termed an “organogel”, using ethyl cellulose (EC, 10 cP) as the gelator and sorbitan monostearate (SMS) as a plasticizer. All-beef frankfurters and pork breakfast sausages were used and instrumental tests performed to determine effectiveness were light microscopy, texture profile analysis, Warner-Bratzler shear force, cook loss and smokehouse yield. A trained sensory analysis panel scored for hardness, juiciness, oiliness, and the presence of off flavours. Replacing beef fat (BF) with canola oil (CO) in frankfurters produced a product that was significantly harder (P < 0.05). The gelling of the canola oil lowered the TPA hardness values. Cohesiveness, chewiness and gumminess values were statistically similar to the BF control. Minor changes in L, a and b* values were observed, with the organogel frankfurters being lighter than the BF control. Sensory analysis scores showed that 8,10 & 12% EC frankfurters were significantly less hard than the CO control. / Ontario Ministry of Agriculture, Food & Rural Affairs (OMAFRA)
19	Dynamic Systems : Enzymatic Synthesis, Exchange Reactions and Applications in Materials Science Zhang, Yang January 2015 (has links) This thesis is divided into three parts, revolving around the developments of dynamic systems utilized in dynamic kinetic resolution (DKR) and constitutional dynamic chemistry (CDC). The first section gives an introduction to constitutional dynamics, the core concept of this thesis. Constitutional dynamics can be tuned through reversible interactions. Then, the basic principles of constitutional dynamics in DKR and CDC are discussed, along with their applications. The second section explores the asymmetric synthesis of oxazolidinone derivatives using lipase catalysis through kinetic resolution (KR) and dynamic kinetic resolution. In the first example, synthetic protocol to enantioenriched 5-phenyloxazolidin-2-ones is described, where a kinetically controlled carbamation is followed by lipase-catalyzed cyclization. In contrast to the 5-substituted species, the synthesis of 3-phenyloxazolidin-2-one derivatives could be achieved through lipase-catalyzed cascade O- and N- alkoxycarbonylations in one pot. Furthermore, this KR system could be coupled to a ruthenium-catalyzed racemization process of 1,2-aminoalcohols, thus providing an efficient DKR methodology for asymmetric transformations. The third section focuses on dynamic systems built through reversible covalent reactions. In the first example, a selective gelation process is described, and employed to resolve dynamic imine systems consisting of gelator candidates. In the second example, reversible reactions with aldehyde enamines are presented, including enamine formation and exchange reactions. In particular, Bi(III) and Sc(III) were discovered to accelerate the enamine exchange reactions by 50-400 times, in which the equilibria could be reached within hours. The last example describes reversible nitroaldol reactions in aqueous media, where rapid and efficient equilibration was identified for selected structures in neutral phosphate buffer. / <p>QC 20150911</p> constitutional dynamic chemistry reversible reactions kinetic resolution dynamic kinetic resolution enzyme catalysis lipase asymmetric synthesis racemization oxazolidinone organogel enamine nitroaldol reaction.
20	Hybrid Nanostructured Materials from Bile Acid Derived Supramolecular Gels Chatterjee, Sayantan January 2017 (has links) (PDF) Research activities towards the self-assembly of small organic molecules building blocks which lead to form supramolecular gel has increased extensively during the past two decades. The fundamental investigations of the morphological properties and the mechanical properties of these supramolecular gels are crucial for understanding gelation processes. Most supramolecular gelators were discovered by serendipity, but nowadays ratiional design of new gelators has become somewh at feasible. As a consequence, an increasing number of multi stimuli-responsive and functional molecular gels are reported, offering great prospects with myriads of applications includ ing drug delivery and smart materials as shown in scheme 1. Scheme 1 Part 2: Synthesis of semiconductor nanocrystals In the last two decades, the synthetic development of semiconductor col loidal nanocrystals has been extended from the adjustment of their size, shape, and composition of the particles at the molecular level. Such adjustments of nanocrystals at the molecula r level might open different fields of applications in materials and biological sciences. I n this chapter, the concept of the shape contr ol synthesis of colloidal nanocrystals with a narrow size distribution, and the synthesis of composition dependent alloy type mat erials are described (Scheme 2). Scheme 2 Chapter 2: Synthesis of luminescent semiconductor nanocrystals Part 1: Cadmium deoxycholate: a new and efficient precursor for high ly luminescent CdSe nanocrystals This part demonstrates the sy nthesis of Cadmium deoxycholate (CdDCh2), an efficient Cd-precursor for the synthesis of high quality, monodisperse, multi color emittting CdSe Scheme 3 nanocrystals, while maintaining their high photoluminescent quantum efficiency (Scheme 3). The high thermal stability of CdDCh2 (decomposition temperature: 332 °C) was utilized to achieve high injection and growth temperatures (∼300 °C) for the syntheesis of red emitting nanocrystals with a sharp f ull width at half maximum (FWHM) and multiple excitonic absorption features. We believe that CdDCh2 can be useful for the prreparation of other nanomaterials such as CdS, CdTe and CdSe@CdS core-shell QDs. Part 2: Ligand mediated exccited state carrier relaxation dynamics of Cd1-xZnxSe1-ySy NCs derived from bile salts Bile salts of Cadmium and Zinc provide a convenient and inexpensive single step synthetic route for highly photoluminescent and stable semiconductor nanocrystals (NCs). The high thermal stabilities of Cadmium and Zinc deoxycholates (CdDCh2 and ZnDCh2) allowed us to fine-tune the synthesis of the NCs at high temperatures while maintaining the monodispersity, crystallinity and reproducibility (Scheme 4). Organic capping agent induced lattice strain affects the excited Scheme 4 state relaxation processes of the NCs. The analysis of photoluminescence decay profiles revealed that the average lifettime decreased with the increasing lattice strain of the NCs. A kinetic stochastic model of photoexcited carrier relaxation dynamics of NCs was employed to estimate the values of the radiative recombination rates, the photoluminescence quenching rates and the non-radiative recombination rates of the NCs. These data showed that the non-radiative relaxation rates and the numbeer of surface trap states increased with the incrreasing lattice strain of the NCs. Such types of NCs can have great potential in nonlinear optics, photocatalysis and solar cells. Chapter 3: Synthesis of organic-inorganic hybrid materials Part 1: Hierarchical self-assembly of photoluminescent CdS nanoparticles into bile acid derived organogel: morphological and photophysical properties In this part a strategy towards integrating photoluminescent semiconductor nanoparticles into a bio-surfactant derived organoggel has been reported. A facially amphiphilic bile thiol was used for capping CdS nanoparticless (NPs) which were embedded in a gel derived from a new bile acid organogelator in order to furnish a soft hybrid material (Scheme 5). The presence of CdS NPs in a well-ordered 1D array on the organogel network was confirmed using microscopic Scheme 5 techniques. Photophysical stuudies of the gel–NP hybrid revealed resolved excitation and emission characteristics. Time resolved spectroscopic studies showed that the average lifetime value of the CdS NPs increased in the gel state compared to the sol phase. A kinetic model was utilized to obtain quantitative information about the different decay pathways of the photoexcited NPs in the sol and gel states. Part 2: A novel strategy towards designing a CdSe quantum dot–metallohydrogel composite material This section describes an efficiient method to disperse hydrophobic CdSe quaantum dots (QDs) in an aqueous phase using cetyltriimethylammonium bromide (CTAB) micelles without any surface ligand exchange. The water soluble QDs were then embedded in the 3D self-assembled fibrillar networks (SAFINs) of a hydrogel showing homogeneous dispersibility as eviidenced by Scheme 6 optical and electron microscopico techniques (Scheme 6). The photophyssical studies of the hydrogel–QD from composite are reported for the first time. These composite materials may have potential applications in biology, optoelectronics, sensors, non-linear optics and materials science. Part 3: Photophysical aspectts of self-assembled CdSe QD-organogel hyybrid and its thermoresponsive properties A luminescent hybrid gel was constructed by incorporating CdSe quantuum dots (QDs) in a facially amphiphilic bile acid derived dimeric urea organogel throough non-covalent interaction between ligands capped on QDs surface and hydrophobic pockets of the gel (Scheme 7). The optical transparency of the hybrid materials and the dirrectionalities of the QDs in the gel medium were confirmed by photophysical and microscopic studies. The detailed excited state dynamics of the QD–organogel hybrid has been reported for the first time with the help of lifetime analysis and a kinetic decay model, and thee data revealed that the average lifetime of the QDs decreased in the gel medium. The reversible thermoresponsive behavior of the QD doped organogel was investigated by steady-state fluorescence spectroscopy. W e believe that the results obtained herein provides a route to develop a thermoresponsive system for practical application, especially because of the spatial assembly between soft organic scaffolds and colloidal QDs. Scheme 7 Part 4: In-situ formation of luminescent CdSe QDs in a metallohydrogel: a strategy towards synthesis, isolation, storage and re-dispersion of the QDs A one step, in-situ, room temperature synthesis of yellow luminesce nt CdSe QD was achieved in a metallohydrog el derived from a facially amphiphilic bile salt, resulting in a QD-gel hybrid (Scheme 8). T he ordered self-assembly and homogeneous distribution of the CdSe QDs in the hydrogel network was observed from optical and electro n micrographs. The different excited state behav iors of the hybrid were revealed for the fir st time using time resolved spectroscopy. Ad ditionally, we described the successful isolation of the photoluminescent CdSe QDs from the gel followed by their re-dispersion in an organic solvent using suitable capping ligands. Scheme 8 Chapter 4: Facially a mphiphilic bile acid derived meta llohydrogel: an efficient template for th e enantioselective Diels-Alder reactio n An enantioselective Diels-Ald er reaction mediated by a facially amphiphilic bile acid derived metallogel scaffold has been a chieved (Scheme 9). Different hydrophobic domains present in Scheme 9 the gel appear to facilitate the enantioselective reaction. Various spectro scopic and electron microscopic techniques were employed to understand the possible reasons for the stereoselectivity in the gel. Subsequently, different counter anion s dependent rate accelerations and induced enantioselectivity in the ZnCh2 gel were studied in detail. These preliminary results of the non-covalent based supramolecular heterogeneous catalysis offer new possibilities for using metallogels as nanoreactors for different stereoselective reactions. Supramolecular Gels Bile Acid Derived Hybrid Nanostructured Materials Semiconductor Nanocrystals Luminescent Semiconductor Nanocrystals Supramolecular Gelation Organic-inorganic Hybrid Materials CdS Nanoparticles CdSe Metallohydrogel Organogel Organic Chemistry

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