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161	POROUS POLYMERIC MATERIALS DERIVED FROM BICONTINUOUS MICROEMULSIONS FOR DRUG DELIVERY Ye, Fen 08 August 2007 (has links) No description available. MICROEMULSIONS surfactants HEMA Polymer L1695 DRUG DELIVERY aqueous content
162	An investigation into the Hindered Settling of Pumice Using Various Surfactants Rathi, Shikha 26 May 2011 (has links) No description available. Pharmaceuticals pumice particle size surfactants hindered settling formulation pharmaceuticals
163	A COMPARISON OF DUCKWEED AND STANDARD ALGAL PHYTOTOXICITY TESTS AS INDICATORS OF AQUATIC TOXICOLOGY Gausman, Maria M. 31 July 2006 (has links) No description available. Environmental Sciences duckweed algae Lemna toxicity pesticides surfactants metals pharmaceuticals
164	Macromolecular Structure Evolution of Giant Molecules Via "Click" Chemistry: Asymmetric Giant Gemini Surfactants Based on Polyhedral Oligomeric Silsesquioxane Su, Hao 09 June 2014 (has links) No description available. Polymer Chemistry Polymers Chemistry
165	Computational Modeling of Bubble Growth Dynamics in Nucleate Pool Boiling for Pure Water and Aqueous Surfactant Solutions Romanchuk, Bradley J. 13 October 2014 (has links) No description available. Mechanics Bubble Dynamics Surfactants Nucleate Boiling Computational Volume of Fluid Microlayer
166	A Study on Novel Methods to Improve Conductivity of Carbon Nanotube Films Xie, Yao January 2014 (has links) No description available. Physics Materials Science
167	IMPACT OF NONIONIZABLE GLYCOL SOLUBILIZERS EXHIBITING DIFFERENT SURFACE ACTIVITIES ON INTESTINAL MEMBRANE PERMEABILITY TRISAL, PREETI 14 July 2005 (has links) No description available. Health Sciences, Pharmacy solubility excipients paracellular transcellular surfactants hydrotropes
168	Solvent-Free Extrusion Emulsification Inside a Twin-Screw Extruder Ivancic, Tomislav January 2019 (has links) Solvent-free extrusion emulsification (SFEE) is a novel emulsification technology that operates without solvent to produce sub-micron sized particles (100–200 nm) using a twin-screw extruder (TSE) with high viscosity polymers (up to 600 Pa.s has been tested to date) and only water as the liquid medium. Surfactants have always been known to play a key role in the success of the SFEE process, however very little work has been done to investigate the mechanisms by which they operate, along with isolating the region of the process to which they play the most vital role. The first part of this thesis focused on an investigation into how different surface-active properties impacted the mechanism of SFEE. Three ionic (SDBS, Unicid 350, Calfax DB-45) and three non-ionic surfactants (Igepal CO-890, Brij 58, Synperonic F-108), each with differing surface-active properties were tested in solvent emulsification (SE) prior to their evaluation in SFEE. Synperonic F-108 was the only surfactant found unsuccessful in the SE process, and was therefore disregarded prior to SFEE testing. Of the three ionic surfactants, SDBS and Calfax were the only ones found to successfully create a stable emulsion in SFEE; the latter species doing so with 50% reduced molar loading. Igepal and Brij were found to produce very low amounts of emulsified material (5-25% of the total solids mass), requiring molar loadings that greatly exceed those of SDBS and Calfax to do so. Particles generated by both SE and SFEE were tested at extreme operating conditions to compare their relative stabilities, and were found to experience similar stability behaviours. This result reinforces previous findings that the dispersion stage controls the SFEE technique. The second part of this thesis continued the investigation on the use of non-ionics in SFEE, with a focus on the impact of their molecular structure on the overall process. Non-ionic surfactants with varying hydrophilic end group chain lengths were tested in SFEE, and it was determined that the optimal hydrophilic chain length was between 10–12 ethoxy units, where shorter chains resulted in coarse particle generation. The structure of the hydrophobic end group was tested as well, and through experimentation it was determined that a branched end group structure was slightly more beneficial than a linear end group to emulsion stabilization. As seen in the first part of this thesis, none of the new selection of non-ionic surfactants were capable of inducing sufficient phase inversion to result in a high percentage of emulsion leaving the extruder. The most promising ionic surfactant, Calfax DB-45, was combined with various promising non-ionic surfactants to create binary surfactant mixtures, and were tested in SFEE. Initial results yielded the most promising blend as Calfax/Igepal CA-630. After manipulation of both molar ratio and total surfactant loading, it was determined that a minimum Calfax loading of 0.06 mmol/g resin was required in the blend to achieve a stable 100 – 200 nm emulsion in both SE and SFEE processes, regardless of non-ionic concentration. The benefits of adding a non-ionic surfactant in the blend were seen with the substantial reduction of Calfax entrapped in the final latex particles, apparent by the distinct decrease in overall particle charge. A mini-study examining the impacts of increasing the viscosity of the water phase by hydrocolloid addition for the dilution stage has shown that positive changes to emulsion properties can be seen by this approach, but further experimentation is required before concrete conclusions can be made. / Thesis / Master of Applied Science (MASc) / The creation of nanoparticles has been a growing area of research in recent years, with numerous different means of generation being developed. Extruders have seldom been used for the generation of nanoparticles due to issues related to controlling generated particle characteristics. Previous work has shown that twin-screw extruders are capable of generating 100–200 nm particles, but the process has shown minimal robustness to variations in operating conditions. The aim of this study has been to continue the work of nanoparticle generation within a twin-screw extruder, with a specific focus on the impacts that special soap-like particles (surfactants) have on the process. Surfactants are special particles consisting of both a hydrophilic (“water-loving”) and hydrophobic (“water-hating”) end group that allows multiple substances to combine on a chemical level. Variations in the molecular structure and electronic charge of these surfactants, along with blends of different types of surfactants have been tested to gain a better understanding of their role in the process, and hopefully increase the overall robustness of the process. Overall, it was determined that surfactants with a negative charge were more successful in creating polyester latex particles than ones with a neutral molecular structure. The blending of a charged and neutral surfactant has been shown in this study to not only be successful in generating particles of desired size, but have also shown the ability to reduce the overall charge of the final latex particles.
169	Interactions of a zwitterionic thiophene-based conjugated polymer with surfactants Costa, T., de Azevedo, D., Stewart, Beverly, Knaapila, M., Valente, A.J.M., Kraft, M., Scherf, U., Burrows, H.D. 2015 September 1925 (has links) Yes / In this paper we investigate the optical and structural properties of a zwitterionic poly[3-(N-(4-sulfonato-1-butyl)-N,N-diethylammonium)hexyl-2,5-thiophene] (P3SBDEAHT) conjugated polyelectrolyte (CPE) and its interaction in water with surfactants, using absorption, photoluminescence (PL), electrical conductivity, molecular dynamics simulations (MDS) and small-angle X-ray scattering (SAXS). Different surfactants were studied to evaluate the effect of the head group and chain length on the self-assembly. PL data emphasize the importance of polymer–surfactant electrostatic interactions in the formation of complexes. Nevertheless, conductivity and MDS data have shown that nonspecific interactions also play an important role. These seem to be responsible for the spatial position of the surfactant tail in the complex and, eventually, for breaking-up P3SBDEAHT aggregates. SAXS measurements on P3SBDEAHT-zwitterionic cocamidopropyl betaine (CAPB) surfactant complexes showed a specific structural organization of the system. The CAPB surfactant promotes a structural transition from pure P3SBDEAHT 3-dimensional aggregates (radius of gyration ∼85 Å) to thick cylindrical aggregates (∼20 Å) where all CAPB molecules are associated with the polymer. For molar ratios (in terms of the polymer repeat unit) >1 the SAXS interference maximum of the complexes resembles that of pure CAPB thus suggesting ongoing phase segregation in the formation of a “pure” CAPB phase. / The Coimbra Chemistry Centre is supported by the Fundação para a Ciência e a Tecnologia (FCT), Portuguese Agency for Scientific Research, through the project PEst-OE/QUI/UI0313/2014. TC and BS thank FCT, which has supported this work through Postdoctoral Grants (SFRH/BPD/47181/2008 and SFRH/BPD/82396/2011, respectively). DA acknowledges CNPq, Conselho Nacional de Desenvolvimento Científico e Tecnológico – Brasil, for financial support through the Grant “Bolsista do CNPq – Brasil”. The research leading to the SAXS data has received funding from the European Community's Seventh Framework Programme (FP7/2007–2013) CALIPSO under grant agreement no. 312284. Optical properties Structural properties Surfactants
170	Investigation sur l'impact de la concentration de moussant dans un système solide-liquide-gaz et automatisation d'un capteur de dimension des bulles Roy, Jonathan 19 April 2018 (has links) Les agents tensioactifs sont employés dans les colonnes de flottation industrielle pour améliorer les propriétés physicochimiques de la pulpe. En général, ils affectent directement la tension superficielle en diminuant l’énergie nécessaire à la formation des bulles et en augmentant leur élasticité L’objectif principal du mémoire consiste à étudier l’influence de la concentration de moussant dans un milieu triphasé (solide/liquide/gaz) sur le taux de rétention d’air. Le mémoire traite également de l’implantation d’un système automatisé de détection du diamètre des bulles (visionneuse à bulles) dans une pulpe minérale. L’étude révèle qu’à haute concentration, les particules hydrophobes semblent annuler l’effet du moussant sur le taux de rétention d’air. De plus, le type de cellule de conductivité employé est problématique, car il entraîne un écoulement préférentiel (pulpe/bulles). Enfin, la visionneuse à bulles employée fonctionne en présence de solides, mais il serait préférable de modifier sa géométrie. / Surfactant agents are used in flotation columns to improve the physical and chemical properties of the slurry. In general, they directly affect the superficial tension by decreasing the energy necessary for bubble formation and by increasing their elasticity. The main objective of this master’s thesis is to verify the impact of frother concentration in a three-phase (solid/liquid/gas) system on the air hold-up. The thesis also deals with the availability of an automated system for bubble diameter measurement (bubbles viewer) in a three-phase system (slurry-air). The study reveals that for high concentration, hydrophobic particles seem to cancel the effect of the bubble on the gas hold-up. Furthermore, the type of conductivity cell used is problematic because it promotes preferential flow (pulp/bubbles). Lastly, the bubble viewer can be operated with solids, but it is recommended changing its geometry. TN 7.5 UL 2013 Colonnes de flottation Surfactants Bulles -- Mesure

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