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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Adsorption of macromolecules onto functionalized surfaces

Rahn, John Richard 01 January 1996 (has links)
Three experiments are discussed. Each experiment uses surface plasmon resonance (SPR) spectroscopy to examine the adsorption of organic molecules from solution onto a solid substrate. A description of experimental techniques and materials is included. An extensive background discussion precedes the description of each experiment. For the first experiment, SPR and x-ray photoelectron spectroscopies are used to determine the amount of a polyelectrolyte adsorbed to a surface with a pre-selected charge density (1). The observed behavior indicates that the Coulomb attraction between the surface charges and the polymer charges is the chief interaction controlling the adsorption for high surface charge densities, i.e., charge densities which correspond to average charge spacings less than the charge separation between the polyelectrolyte segments. When the average distance between adjacent surface charges exceeds the length of a fully extended polymer segment, the polymer layer appears to maintain a constant density. A clear shift in the adsorption occurs when the average charge separation distance on the substrate equals the intercharge separation for the polyelectrolyte. The second experiment uses SPR spectroscopy to monitor the in situ adsorption kinetics of an antibody protein from aqueous solution onto an antigen-coated surface (2). We attribute the shape of the adsorption isotherm as indicative of an evolution in the orientation of the adsorbed antibodies. The kinetics data are interpreted in terms of random sequential adsorption. The third experiment describes efforts to obtain an image of domain growth during a phase transition in a monolayer of amphiphilic molecules using surface plasmon resonance microscopy. The feasibility of using SPR microscopy is demonstrated. It is shown that the polarizability of the molecules in the monolayer may be higher than the polarizability of those in solution, providing evidence that the transition is occurring. The results suggest that the phase segregation, if it occurs, possesses length scales shorter than the resolution afforded by SPR microscopy.
2

Condensation of 1,3-diphenylpropanetrione-1,2,3 with active methylene compounds

Yeager, Robert Elliott. January 1952 (has links)
Call number: LD2668 .T4 1952 Y4 / Master of Science
3

Competition between phase separation and crystallization in polyolefin blends

Akpalu, Yvonne A 01 January 1998 (has links)
In this thesis, the crystallization and melting of blends of high and low density homogeneous ethylene-1-octene copolymers with appended long chain branches have been investigated in real time by means of time-resolved SALS under cross-polarized and parallel-polarized optical alignments using a charge-coupled device camera (CCD) system, simultaneous small angle-X-ray and wide angle X-ray measurements using synchrotron radiation and differential scanning calorimetry (DSC). For the highest density material studied, our data show that in the case of crystallization at low supercooling, spherulitic growth (primary crystallization) occurs first while the apparent degree of crystallinity is less than 2%. Over 90% of the crystallinity develops after the primary crystallization process. When the average branch content of the blend is 14 branches per 1000 carbons complete spherulites are observed. The internal spherulite disorder is unchanged relative to that obtained for the high density component. When the average branch content of the blend is increased to 58 branches per 1000 carbons, the crystallization rate is faster than that of the moderate increase but the morphology suggested from SALS is consistent with incomplete spherulites. For this case, our data suggest that the domain sizes resulting from the incipient melt phase separation is the likely cause of the accelerated crystal growth. We propose that the incomplete spherulites formed may be a consequence of the competition between amorphous phase separation in the residual melt and crystallization. The results of a numerical study investigating the dynamics of spinodal decomposition in blends of linear Gaussian chains in three dimensions were used to evaluate the effect of branch content on the phase separation kinetics for mixtures of linear Gaussian chains and branched chains. The phase separation kinetics in the branched systems are identical to that of linear mixtures with larger domain sizes. Hence, it may not be possible to detect differences in the time dependence of the structure factor and domain size from scattering measurements if one varies the branch content of the blend. Blends of linear and branched polymers can be treated as blends of linear Gaussian chains even when the branch content is very high.
4

The evolution of order in liquid crystals and polymer crystals

Liu, Chester 01 January 1998 (has links)
This dissertation describes computer simulations and theoretical analyses of ordering processes in liquid crystals and polymers. One ordering process in liquid crystals occurs during the isotropic to nematic transition in which point and line defects form and annihilate. Monte Carlo simulations support the newly-derived scaling of the defect density, which was found to scale with time as $-$6/7 in both two and three dimensions, contrary to the mean-field result of $-$1. Frustration was determined to be a key factor in this difference. Another ordering process in liquid crystals is the evolution of inversion walls and loops. Analogous to the model of a shrinking elastic loop in a viscous medium which has been theoretically investigated by deGennes and Brochard, our lattice Monte Carlo simulations of inversion walls and loops show the same scaling behavior with time and the same predicted dependence of shrinkage rate on the orientational diffusion coefficient. Polymer crystallization constitutes the other major topic of this dissertation. The initial stages of crystallization are difficult to study experimentally but by using the united-atom Langevin dynamics method, single and multi-chain crystallization can be simulated. The simulations show that random fluctuations nucleate regions of higher order which in turn can induce further crystallization. Lamellar thicknesses obtained from simulations at various undercoolings showed the same scaling behavior as experimental data from literature. Besides homogeneous nucleation, secondary nucleation was also observed, with the newly-attached chains continuing to undergo conformational changes on the crystal surface. Finally, the phenomenon of lamellar thickening was investigated. Lamellar thickening was observed to occur cooperatively in a stepwise, quantized manner.

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