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401	Emulsion droplets of controlled deformability: electrokinetics, colloid stability and polymer adsorption Barnes, Timothy January 2003 (has links) Emulsions are commonly found both in nature and industry. Due to the complex nature of emulsion systems, their interfacial properties and stability are poorly understood, particularly the influence of droplet deformability on the colloid and interfacial behaviour. This study has highlighted the role of emulsion droplet cross-linking (deformability and penetrability) on droplet surface chemistry, droplet colloidal stability and adsorption at the droplet-water interface and provides insight into methods for enhancing the performance of emulsion formulations. 250103 Colloid and Surface Chemistry polymer colloids adsorption emulsion droplets
402	A surface force apparatus study of the mercury/water interface with and without self-assembled monolayers Clasohm, Lucy Y January 2005 (has links) The surface force apparatus (SFA) has been an important technique for making direct force measurements and has contributed enormously to our understanding of colloidal interactions. The conventional SFA has been limited to measuring forces between solid surfaces, until recently when a modified SFA was developed at the Ian Wark Research Institute [1]. A fluid drop (mercury) is introduced into the apparatus which allows a range of deformable surfaces to be studied in the SFA. This project is an extension of this technique. Interactions between a mica sheet and a mercury drop are studied, including the modification of mercury with self-assembled monolayers (SAMs) of thiol surfactants, and the drop deformation due to non-equilibrium adsorption effects and hydrodynamic forces. Colloid and Surface Chemistry Surface chemistry Thin films Colloids
403	Manipulation of Colloids by Osmotic Forces Palacci, Jérémie 15 October 2010 (has links) (PDF) Thèse soutenue en Anglais [PHYS] Physics diffusio-phoresis microfluidic colloids microswimmers out-of-equilibrium physics
404	Tailored cell attachment and cytotoxicity in PEG-based polysaccharide-derivatized hydrogels Huo, Hongguang. January 2007 (has links) Thesis (M.Ch.E.)--University of Delaware, 2006. / Principal faculty advisor: Eric M. Furst, Dept. of Chemical Engineering. Includes bibliographical references.
405	Preparation and analysis of crosslinked lignocellulosic fibers and cellulose nanowhiskers with poly(methyl-vinyl ether co maleic acid) â " polyethylene glycol to create novel water absorbing materials Goetz, Lee Ann 13 November 2012 (has links) The search for cellulosic based products as a viable alternative for petroleum-based products was the impetus for covalently crosslinking lignocellulosic fibers and nanocellulose whiskers with poly(methyl vinyl ether) co maleic acid (PMVEMA) - polyethylene glycol (PEG). The lignocellulosics used were ECF bleached softwood (pine) and ECF bleached birch kraft pulp. This thesis also tests the hypothesis that water absorption and retention can be improved by grafting PMVEMA-PEG to the surface of ECF bleached kraft pulp hardwood and softwood fibers via microwave initiated crosslinking. The crosslinking of the PMVEMA to hardwood and softwood kraft ECF bleached pulp fibers resulted in enhanced water absorbing pulp fibers where the PMVEMA is grafted onto the surface of the fibers. The crosslinking was initiated both thermally and via microwave irradiation and the water absorption and water retention was measured as the percent of grafted PMVEMA. This was the first application of microwave crosslinking of pulp fibers with the goal of creating water absorbing pulp fibers. Ultimately, the water absorption values ranged from 28.70 g water per g dry crosslinked pulp fiber (g/g) to 230.10 g/g and the water retention values ranged from 26% to 71% of the water retained that was absorbed by the crosslinked pulp fibers. The microwave initiated crosslinked fibers had comparable results to the thermally crosslinked fibers with a decreased reaction time, from 6.50 min (thermal) to 1 min 45 sec (microwave). Cellulose nanowhiskers, crystalline rods of cellulose, have been investigated due to their unique properties, such as nanoscale dimensions, low density, high surface area, mechanical strength, and surface morphology and available surface chemistry. Prior to this study, the crosslinking of cellulose whiskers with the matrix via solution casting of liquid suspensions of whiskers and matrix had not been explored. The hypothesis to be investigated was that incorporating cellulosic whiskers with the PMVEMA-PEG matrix and crosslinking the whiskers with the matrix would yield films that demonstrate unique properties when compared to prior work of crosslinking of PMVEMA-PEG to macroscopic ECF bleached kraft pulp fibers. Solution cast composites of cellulose nanowhiskers-PMVEMA-PEG were crosslinked at 135 °C for 6.5 min and analyzed for crosslinking, thermal stability, strength and mechanical properties, whisker dispersion, and water absorption and uptake rates. The whisker-composites demonstrated unique properties upon crosslinking the whiskers with PMVEMA-PEG, especially the elongation at break and tensile strength upon conditioning of the final materials at various relative humidities. In addition, the whiskers improved the thermal stability of the PMVEMA-PEG matrix. This is significant as methods of improving processing thermal stability are key to developing new materials that utilize cellulose whiskers, PMVEMA, and PEG. This thesis addresses the hypothesis that cellulose nanowhiskers that are crosslinked with a matrix can create new whisker-matrix composites that behave differently after crosslinking. Hydrogel Superabsorbents Nanocomposite Nanocellulose Nanogels Nanostructured materials Nanotechnology Colloids
406	The adsorption of diquat by soil colloids as a factor in herbicide applications Ehlers, Dennis H. 03 June 2011 (has links) The adsorption of dicquat dibromide as affected by available soil moisture and concentration of diquat was studied on Blount silt loam soil in east central Indiana. The diquat under varying concentrations and soil moisture conditions was topically applied to twenty-seven, 1/2 meter square sample plots with the surface vegetation removed to expose bare soil.The soil texture of the research site was determined using the Bouyoucos hydrometer method. From the texture analysis, the highly adsorptive montmorillonite clay was determined to be the major adsorptive surfaces available to the diquat radical. With the montmorillonite clays being the major adsorptive surfaces, it was concluded that the applied diquat was completely adsorbed by the soil colloids.Using a modified Langlois-Stemp-Liska procedure for pesticide extraction and clean-up, the major effect of the herbicide concentrations and the soil moisture conditions on the adsorptive capacity of the soil colloids for the diquat radical was determined to be at the level of degrees of adsorption.Ball State UniversityMuncie, IN 47306 Herbicides. Colloids. Soil chemistry. Ball State University. Thesis (M.S.)
407	The collodial differentiation of starches Houtz, Harold H. (Harold Howard) 01 January 1940 (has links) No description available. Starch Colloids Molecular weights Consistometer Viscosity Testing Papermaking
408	Microgel Based Materials for Controlled Macromolecule Delivery Nolan, Christine Marie 10 April 2005 (has links) This dissertation focuses on utilization of poly(N-isopropylacylamide) (pNIPAm) based mirogels for regulated macromolecule drug delivery applications. There is particular emphasis on incorporation of stimuli responsive materials into multi-layer thin film constructs with the main goal being fabrication of highly functional materials with tunable release characteristics. Chapter 1 gives a broad overview of hydrogel and microgel materials focusing on fundamental properties of pNIPAm derived materials. Chapter 2 illustrates the progression of controlled macromolecule release from hydrogel and microgel materials and sets up the scope of this thesis work. Chapter 3 details studies on thermally modulated insulin release from microgel thin films where extended pulsatile release capabilities are shown. Chapters 4 and 5 focus on more fundamental synthesis and characterization studies of PEG and acrylic acid modified pNIPAm microgels that could ultimately lead to the design of protein loaded microgel films with tunable release characteristics. Chapter 6 illustrates fundamental macromolecule loading strategies, which could also prove useful in future protein drug delivery design using stimuli responsive networks. Chapter 7 concentrates on direct insulin release studies that probe the interaction between entrapped and freely diffusing protein and microgels. These model experiments could prove useful in design of tunable macromolecule drug release from functionally modified microgels and could aid in the tailored design of peptide-loaded microgel thin films. Chapter 8 discusses the future outlook of controlled macromolecule release from microgel based materials. Delivery Macromolecules Microgel Hydrogel Drug delivery systems Nanoparticles Macromolecules Colloids
409	Colloidal electrodynamics, electrohydrodynamics and thermodynamics in confined geometries / Han, Yilong. January 2003 (has links) Thesis (Ph. D.)--University of Chicago, Department of Physics, December 2003. / CD-ROM contains entire thesis in PDF format. Includes bibliographical references. Also available on the Internet.
410	Quantifying single oil-particle interactions in aqueous media / Aston, David Eric, January 2001 (has links) Thesis (Ph. D.)--University of Washington, 2001. / Vita. Includes bibliographical references (p. 95-103).

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