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521	Formulation and characterisation of nanoparticles from biocompatible microemulsions Krauel, Karen, n/a January 2005 (has links) The aims of this study were to prepare poly (ethylcyanoacrylate) (PECA) nanoparticles on the basis of different types of microemulsions, to investigate the entrapment within and release of a bioactive from these particles and to establish a set of delivery systems with varying entrapment and release characteristics, thereby giving the formulator the opportunity of a more tailor-made approach in the development of a delivery system. Furthermore the scale up of particle preparation and the possible enhancement of the immunogenic properties of PECA particles by incorporation of the adjuvant Quil A was investigated. Methods: Four phase triangles were established and microemulsion samples, used as a template to prepare nanoparticles, were characterised by viscosity and conductivity measurements, polarising light microscopy, freeze fracture transmission electron microscopy (TEM), cryo field emission electron microscopy (cryo FESEM) and self-diffusion NMR to determine their microemulsion type (droplet, bicontinuous, solution type). PECA nanoparticles were prepared from different types of microemulsions by interfacial polymerisation. Particle size, polydispersity index (PI) and [zeta]-potential were measured by photon correlation spectroscopy and electrophoretic mobility respectively. Normal scanning electron microscopy (SEM) and cryo FESEM were used to visualise particles. Fluorescently labelled ovalbumin (FITC-OVA) was used as a model protein/antigen and entrapment within and release from nanoparticles was investigated. To scale up nanoparticle preparation an instrumental set-up with reactor, peristaltic pump and stirrer was used. A 2⁷ fractional factorial study was designed to observe possible factors or their interactions that could influence particle formation under scale up conditions. For an immunological study freeze dried formulations of PECA nanoparticles, having FITC-OVA and Quil A entrapped, were prepared, and activation and uptake of formulations by murine bone marrow derived dendritic cells (DCs) and T cells in vitro were monitored. Results: Results obtained from the measurements described above, for formulations from the four different phase triangles, indicated that microemulsions of w/o droplet, bicontinuous or solution type could be formed. It was possible to prepare PECA nanoparticles from all of the different types of microemulsions. Particles had an average size of 265 nm � 24, with an average PI of 0.18 � 0.05 and an average negative [zeta]-potential of -17 mV � -5. Particle size, PI and [zeta]-potential were not influenced by the type of microemulsion that was used as a polymerisation template. Entrapment and release were however influenced by the type of microemulsion and although entrapment of FITC-OVA was generally high for PECA particles, it was highest for particles prepared from a droplet type microemulsion. Entrapment could also be increased by increasing amounts of monomer. The rate of release was dependent on the amount of monomer used for polymerisation and the type of microemulsion used for particle preparation, with nanoparticles prepared from a w/o droplet type microemulsion showing the slowest release. Furthermore it was shown that particle preparation could be scaled-up with the instrumental set-up used in this study, but conditions need to be refined as the average particle size and polydispersity index were considerably larger (441 nm � 101, 0.68 � 0.14) when compared to particles prepared by the beaker-pipette method (see above). The adjuvant Quil A could efficiently be entrapped into PECA nanoparticles together with FITC-OVA. Incubation of DCs and T cells with the various formulations did, however, not result in increased uptake or activation. Conclusions: PECA nanoparticles with high entrapment efficiency of antigen and adjuvant can be prepared from different types of microemulsions. Particles show different rates of entrapment and release depending on the type of microemulsion used as a polymerisation template, possibly because two different types of nanoparticles form. Nanocapsules are believed to form on the basis of droplet type microemulsions and nanospheres form on the basis of bicontinuous and solution type microemulsions. Freeze dried formulations of PECA nanoparticles, containing Quil A and FITC-OVA, were not able to induce an immune response, which might be due to charge repulsion effects between the negatively charged PECA nanoparticles and the negatively charged surface of dendritic cells. Moreover, no adjuvant effect of Quil A was apparent, perhaps caused by total encapsulation of the compound into the particle matrix with no active groups extending out displaying adjuvanticity. nanoparticles biomedical materials biocompatibility emulsions (pharmacy)
522	Study of Self-assembled Gold Nanocluster Patterns in Ion Implanted Silicon: Order from Disorder Venkatachalam, Dinesh Kumar, Dinesh.Venkatachalam@anu.edu.au January 2008 (has links) Gold (Au) implantation in silicon (Si) has been a topic of great interest from both fundamental and applied perspectives. Ion implantation is a versatile technique due to its ability to form surface-embedded nanoparticles that provide better adhesion. Also, being an integral part of the substrate lattice, the nanoclusters produced by ion implantation are free from impurities and their size distribution can be controlled by carefully optimizing the beam parameters. During our experiments to produce nanoclusters of Au on Si for use as seeds for the growth of nanowires, we stumbled across an unusual pattern formation process under specific conditions. This unique self-assembly process is observed only within a critical threshold implantation fluence and above a threshold annealing temperature. Fabrication of ordered arrays of metal nanoparticles on Si substrates is of significance for both fundamental science associated with low-dimensional physics and technical app lications. The application of functional nanostructures strongly depends on their assembly in ordered one- or two- dimensional arrangements. These arrangements may play an important role in fabricating ordered arrays of semiconductor/oxide nanowires.This thesis discusses a systematic study performed to understand the temperature and time dependent nucleation, growth of Au nanoclusters and evolution of the self-assembled patterns. A growth model is proposed to show the re-crystallization behaviour of Au supersaturated amorphous silicon (a-Si) on Si substrate. The observed self-assembled periodic patterns of Au nanoclusters bear resemblance to the Liesegang ring structures prevalent in some chemical reaction-diffusion systems. Based on this systematic study of the growth and morphology of Au nanoclusters, a tentative growth mechanism has been proposed for the formation mechanism of this unusual self-assembled pattern. The pattern formation of this non-equilibrium process is expected to originate due to instabilities of the three scales of Au nanoclusters at elevated temperatures. The kinetics of pattern formation from a supersaturated solid solution (a-Si/Au alloy) is demonstrated using numerical solutions obtained by a two-dimensional growth model, which takes into account the nucleation, diffusion and the aggregation process. The numerical solution of the diffusion equations appear to be in good agreement with the experimental results. Self-assembly gold nanoparticles silicon ion implantation
523	Flame spray synthesis of catalyst nanoparticles for photocatalytic mineralisation of organics and Fischer-Tropsch synthesis Teoh, Wey Yang, Chemical Sciences & Engineering, Faculty of Engineering, UNSW January 2007 (has links) In this thesis, a range of TiO2-based photocatalysts and cobalt-based Fischer-Tropsch (FT) catalysts were developed and synthesised via the one-step Flame Spray Pyrolysis(FSP). The work starts with the demonstration of bare TiO2 nanoparticles synthesis with controlled characteristics such as specific surface areas, crystallite sizes and anatase content. A comparative study was carried out by benchmarking with commercial Degussa P25 TiO2. The FSP TiO2 was shown to be more efficient in mineralising pollutants requiring direct charge transfer such as the saccharides, while P25 was better for mineralising alcoholic and aromatic compounds. Both catalysts were equally as active in mineralising carboxylic acids. Upon identifying the optimal synthesis of bare TiO2, an in situ co-precipitation of highly dispersed Pt on TiO2 was carried out in the flame. Deposition of Pt resulted in enhanced photocatalytic performance as a result of efficient charge trappings. It is highlighted here the inter-relationship between Pt oxidation states and the TiO2photocatalysis of carboxylic acid, alcohol and aromatic compounds. Depending on the mineralisation path adopted by the model organic compounds, they were shown to have direct influence on the Pt oxidation states. These oxidation states in turn affect the mineralisation rates of the organic compounds. Substitutional-doping of TiO2 with Fe(III) with tunable bandgap was also possible by FSP synthesis. The high temperature synthesis coupled with rapid quenching resulted in 5 times higher solubility limit (Fe/Ti = 0.05) than that previously reported in the literature. Under visible light irradiation, FSP-made Fe-TiO2 improved the photocatalytic mineralisation of oxalic acid by more than 6 times, with respect to P25 and FSP TiO2. Furthermore, the photocatalyst was reusable over a number of repetitions with minimal leaching or loss in activity. The last part of the work concerns the development of bare and Ru-doped Co-ZrO2 catalysts, where cobalt was finely dispersed within the zirconia matrix. Doping of Ru enhanced significantly the reducibility of cobalt, reducing even the embedded cobalt beneath the zirconia surface. It also increased the extent of CO-chemisorption and as such, enhanced the FT activity. This is the first time, catalysts of such type is synthesised and tested for FT reaction. Flame. Catalysts. Nanoparticles. Fischer-Tropsch process. Photocatalysis.
524	Interactions, phase behavior and rheological properties of polymer-nanoparticle mixtures Surve, Megha Madhukar, January 1900 (has links) (PDF) Thesis (Ph. D.)--University of Texas at Austin, 2006. / Vita. Includes bibliographical references.
525	Nanostructure of transition metal and metal oxide for electrocatalysis Gu, Yanjuan. January 2006 (has links) Thesis (Ph. D.)--University of Hong Kong, 2006. / Title proper from title frame. Also available in printed format.
526	Study of superspin-glass effect and superparamagnetic behavior in magnetite nanoparticles and gold-coated magnetite nanoparticles Fullem, Sharbani I. January 2006 (has links) Thesis (M.S.)--State University of New York at Binghamton, Department of Physics, 2006. / Includes bibliographical references.
527	Préparation et caractérisation de nouveaux amphiphiles fonctionnalisés par des oligo-et polysaccharides Goncalves Dal Bo, Alexandre 25 April 2011 (has links) (PDF) Ce travail de thèse décrit la préparation et l'étude des propriétés d'auto-assemblage de nouveaux amphiphiles fonctionnalisés par des sucres. Des glycosides propargyliques du lactose et de la N-acétyl-glucosamine ont été conjugués par chimie click (cycloaddition de Huisgen catalysée par des sels de cuivre) à des dérivés de poly(ethyleneglycol) dont une des extrémités a au préalable été modifiée par une fonction azide et l'autre par un bloc hydrophobe de type polyphénylène ou bien aliphatique. Après une caractérisation par résonance magnétique nucléaire et spectrométrie de masse, les propriétés d'auto-assemblage de ces amphiphiles ont été étudiées par diffusion dynamique de la lumière (DLS), diffraction des rayons-X aux petits angles (SAXS) et microscopie électronique. Il a été montré qu'en phase aqueuse, les systèmes amphiphiles dérivés du PEG 900 s'auto-assemblent pour former de micelles de taille extrêmement régulière dont le diamètre moyen est de l'ordre de 10 nm. La présence et la biodisponibilité des sucres à la surface de ces nanoparticules ont également pu être démontrées par diffusion dynamique de la lumière avec les lectines PNA et WGA. Les interactions spécifiques observées entre les lectines et micelles associées aux propriétés d'encapsulation de ce type de nanoparticules permettent d'imaginer de futures applications pour la délivrance de médicaments ou encore l'imagerie médicale. [CHIM] Chemical Sciences Nanoparticles Amphiphiles Oligo-et polysaccharides
528	Glucose-Sensitive Nanoparticles for Controlled Insulin Delivery Zion, Todd C., Tsang, Henry H., Ying, Jackie Y. 01 1900 (has links) A novel reverse microemulsion (RM) mediated synthesis of glucose-responsive nanoparticles was developed for controlled insulin delivery. Nanoparticles were constructed using a model system comprised of dextran, poly(α-1,6 glucose), physically crosslinked with the tetrafunctional glucose-binding protein, Con A. A rapid-screening technique was used to quantify RM phase behavior in the presence of dextran, Con A and insulin. The extent of the RM existence region diminishes with increasing dextran and Con A concentrations and with increasing dextran molecular weight. Crosslinking efficiency between Con A and fluorescein isothiocyanate dextran (FITC-Dex) was found to depend on the total concentration of Con A as well as the ratio of Con A to FITC-Dex. Functionalizing dextran with higher affinity mannose ligands and increasing dextran molecular weight both improved crosslinking efficiency. The nanoparticles dissolved when dispersed in buffered saline solutions containing elevated glucose concentrations and were most responsive within the physiological range. Finally, insulin was encapsulated in select formulations and found to release preferentially at these elevated glucose concentrations. / Singapore-MIT Alliance (SMA) nanoparticles drug delivery insulin reverse microemulsion
529	Preparation of Polymer-Coated Functionalized Ferrimagnetic Iron Oxide Nanoparticles* Yu, Shi, Chow, Gan-Moog 01 1900 (has links) A simple chemical method to synthesize PMAA coated maghemite nanoparticles is described. Monomer methacrylic acid molecules were absorbed onto the synthesized ferrimagnetic nanoparticles followed by polymerization. The carboxylic group of PMAA coating allowed surface immobilization of foreign molecules. An anti-cancer drug was successfully adsorbed onto the PMAA coated maghemite nanoparticles for potential targeted drug delivery. / Singapore-MIT Alliance (SMA) PMAA maghemite nanoparticles adsorption polymerization drug
530	Single Stranded DNA Induced Assembly of Gold Nanoparticles Yang, Jun, Lee, Jim Yang, Deivaraj, T.C., Too, Heng-Phon 01 1900 (has links) The binding affinity of single stranded DNA (ssDNA) for gold nanoparticle surface is studied in this work. The data indicate that the strength of interaction between ssDNA and Au particle surface is closely related to the particle size, with smaller particles (5 nm) producing the most pronounced effects. From these experimental findings, a single stranded DNA (ssDNA) based method to assimilate 13 and 5 nm gold nanoparticles was developed, and verified by transmission electron microscopy (TEM). / Singapore-MIT Alliance (SMA) self assembly gold nanoparticles DNA oligonucleotides

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