Global ETD Search

51	Development of Integrated Dielectric Elastomer Actuators (IDEAS): trending towards smarter and smaller soft microfluidic systems Price, Alexander K. January 1900 (has links) Doctor of Philosophy / Department of Chemistry / Christopher T. Culbertson / During the last five years, great advancements in microfluidics have been achieved with the development of “sample-in-answer-out” systems. Such systems have begun to realize the true potential of analytical miniaturization since the concept of the “micro-Total Analysis System” was first envisioned. These systems are characterized by the elegant integration of multiple fluid-handling channel architectures that enable serial execution of sample preparation, separation and detection techniques on a single device. While miniaturization and portability are often identified as key advantages for microfluidics, these highly integrated systems are heavily reliant upon large off-chip equipment, i.e. the microchip is often tethered to the laboratory via multiple syringe pumps, vacuum pumps, solenoid valves, gas cylinders and high voltage power supplies. In this dissertation, a procedure for the facile integration of dielectric elastomer (DE) actuators (called IDEAs) onto microfluidic devices is described. Poly(dimethylsiloxane) (PDMS) is commonly used as a microchip substrate because it is cheap and easy to fabricate, mechanically robust and optically transparent. The operation of an IDEA exploits the ability of PDMS to behave as a smart material and deform in the presence of an electric field. In Chapter 2, the fabrication of IDEA units on a standard microchip electrophoresis device is described. IDEA-derived injections were used to evaluate the physical performance of this novel actuator configuration. In Chapter 3, the analytical merits of IDEA-derived injections were evaluated. Sampling bias caused by electokinetic injection techniques has been problematic for conventional microchip electrophoresis systems due to the lack of fluid access. The hydrodynamic injections created by IDEA operation were found to be highly reproducible, efficient, and possess a negligible degree of sampling bias. In Chapter 4, the spatial characteristics of microchannel deformation due to IDEA actuation have been investigated using fluorescence microscopy. It was determined that the DE compresses more along the edge of the channel than in the middle of the channel. This information can be used to design a new generation of more efficient IDEAs. Microfluidics Actuators Smart Materials Electrophoresis Microfluidic Integration Chemistry, Analytical (0486)
52	Preparation and characterization of electrostatically selfassembled perylene-diimide/polyelectrolyte composites Everett, Thomas A. January 1900 (has links) Doctor of Philosophy / Department of Chemistry / Daniel A. Higgins / This doctoral thesis covers the synthesis, preparation, and characterization of a series of four perylene diimide derivatives, and the nanofibrous composite materials formed by these perylene diimides when complexed with oppositely charged polyelectrolytes. The perylene diimides include a symmetric dication (TAPDI2+), a symmetric dianion (PDISO32-), and two singly charged asymmetric varieties (C11OPDI+ and C7OPDI+) that contain a hydrophilic head group and hydrophobic ether tail. For all studies presented in the following chapters, poly(acrylate) (PA-) or poly(diallyldimethylammonium) chloride (PDDA+) are used as the polyelectrolytes (PEs). The patterned deposition of sheer aligned, nanofibrous material within a fluidic device is conclusively demonstrated. Thin films of the nanofibrous composite are prepared from aqueous solutions of the semiconducting perylene diimides and oppositely charged polyelectrolyte precursors. By sequentially exposing a clean glass substrate to the cationic and anionic precursor solutions, a thin film of composite material is deposited in a layer-by-layer fashion. By utilizing electrostatic self-assembly (ESA) and layer-by-layer (LbL) procedures, precise control of film thickness and optical density are obtained. The effect of perylene diimide structure and charge on resultant composite film morphology is explored. Through spectroscopic and microscopic studies of bulk perylene diimide solutions and composite thin films, it was determined that the formation of these fibrous materials is dependent on the aggregation of the PDI within the precursor solutions. The molecular orientation of the perylene diimide within the composite nanofiber was determined to be perpendicular to the fiber long axis. For the special case of C7OPDI+/PA- composite, flow induced fiber alignment was observed for both dip coated and flow coated samples. The influence of solution flow profile, PE molecular weight (MW), and PDI structure on deposition efficiency, macroscopic and microscopic morphology, and the potential for nanofiber alignment are investigated. Film formation mechanisms involving two unique routes are also presented. Thin film Self-assembly Perylene Diimide Polyelectrolytes Chemistry, Analytical (0486)
53	Sources and Fate of Organochlorine Pesticides in North America and the Arctic Jantunen, Liisa M. 21 April 2010 (has links) Atmospheric transport and air-water exchange of organochlorine pesticides (OCPs) were investigated in temperate North America and the Arctic. OCPs studied were hexachlorocyclohexanes (HCHs, a-, b- and g-isomers), components of technical chlordane (trans- and cis-chlordane, trans-nonachlor), dieldrin, heptachlor exo-epoxide and toxaphene. Air and water samples were taken on cruises in the Great Lakes and Arctic to determine concentrations and gas exchange flux direction and magnitude. The Henry’s law constant, which describes the equilibrium distribution of a chemical between air and water, was determined for several OCPs as a function of temperature and used to assess the net direction of air-water exchange. Air samples were collected in Alabama to investigate southern U.S. sources of OCPs. Chemical markers (isomers, and enantiomers of chiral OCPs) were employed to infer sources and trace gas exchange. Elevated air concentrations of toxaphene and chlordanes were found in Alabama relative to the Great Lakes, indicating a southern U.S. source. Profiles of toxaphene compounds in air were similar to those in soil by being depleted in easily degraded species, suggesting that soil emissions control air concentrations. Gas exchange fluxes in the Great Lakes indicated near-equilibrium between air and water with excursions to net volatilization or deposition. Net volatilization of a-HCH from the Arctic Ocean was traced by evasion of non-racemic a-HCH into the atmosphere. organochlorine pesticides air-water gas exchange toxaphene hexachlorocyclohexanes 0486
54	Molecular Modeling of Immobilized Single and Double Stranded Oligonucleotides in Mixture with Oligomers Al-Sarraj, Taufik 14 January 2011 (has links) Interactions between single and double stranded oligonucleotides with SiO2 surfaces and the interactions between oligonucleotides and immobilized oligomers have been studied computationally. The oligonucleotide is the 18-base-pair sequence for the survival motor neuron gene SMN1. The oligomer consisted of a 50 unit 2-hydroxyethyl methacrylate (PHEMA) molecule. A linker used to tether the oligonucleotide was either a 10 Å or a 30 Å long succinimdyl 4-[N-maleimidomethyl]cyclohexane-1-caroxylate (sulfo-SMCC-Cn). The surface consisted of a SiO2 crystal that was 50 Å long and 50 Å wide, one unit thick and covered with modified-(3-aminopropyl)trimethoxysilane (m-APTMS) molecules. It was determined that explicit water, sodium counterions and excess salt were necessary to produce computationally stable oligonucleotide structures on surfaces. Artificial partial charges were introduced to the surface, and linkers, oligomers and oligonucleotides were immobilized and studied. The linkers collapsed onto a positive but not onto a negative surface. Oligomers moved closer to the SiO2 surface regardless of the surface charge. Immobilized oligonucleotides tilted significantly from an initial upright position but did not collapse completely onto the surfaces. The interactions between immobilized oligonucleotides and oligomers were examined. The number of oligomers surrounding the oligonucleotide was varied between two and four. Single stranded oligonucleotides were prevented from interacting with the surface as they were inhibited by the presence of oligomers. Double stranded oligonucleotides collapsed onto the surface when only two oligomers were present but remained upright when four oligomers were present. This was due to the four oligomers interacting with one another and effectively shielding the surface. The oligomers interacted with the bases in the single stranded oligonucleotides, making them energetically accessible. Presence of a high density of oligomers prevented the dsDNA from collapsing onto the surface. These results suggest design criteria for preparation of mixed oligonucleotide and oligomer films for use in biosensors. Molecular Modelling Biosensors AMBER DNA Silica surfaces computational Chemistry 0486
55	Use of Lanthanide Ions for Encoding One-bead-one-compound Combinatorial Libraries Ng, Grace Pik Ling 02 March 2011 (has links) The advantage of one-bead-one-compound combinatorial libraries is that hundreds of thousands to millions of compounds can be rapidly synthesized and screened simultaneously. The beads supporting the compounds of interest are then isolated and analyzed to decipher the structure of the desired compound. Many methods are currently used to allow deconvolution of the compound on the individual beads. Herein is described a novel method to encode TentaGel beads using absorption of different ratios of lanthanide ions. The encoding process is completed in parallel with the synthesis of the library of compounds. Once the desired beads are identified, the lanthanide ions can be released from the bead and analyzed using Inductively Coupled Plasma-Mass Spectrometry (ICP-MS). Lanthanide combinatorial chemistry ICP-MS TentaGel 0486 0487
56	Probing the Hydration of Ultrathin Antifouling Adlayers using Neutron Reflectometry Pawlowska, Natalia 04 July 2014 (has links) Adverse interaction and subsequent adsorption of biomolecular species (i.e. fouling) pose a great hindrance for medical and clinical applications (e.g. biosensors). Research into the mechanism behind antifouling coatings have shown a strong link between surface hydration and antifouling behaviour due to the existence of a ‘water barrier’ which prevents proteins from adsorbing onto the surface. In a previous study, a short, mono(ethylene-glycol) silane adlayer (MEG-OH) showed significantly different antifouling behaviour in comparison to its homolog – lacking the internal ether oxygen (OTS-OH). In the present work, neutron reflectometry (and modeling) was used to investigate the water density profiles at MEG-OH and OTS-OH silane adlayers on quartz and Si/SiO2 to determine whether the internal ether oxygen affects the adlayers’ interaction with water. Despite the limitations of studying such ultrathin organic films, the two systems showed different hydration profiles supporting the link between surface hydration and antifouling. Neutron Reflectometry Antifouling Biosensors Hydration Ultrathin film 0486
57	Surface-attached Biomolecules and Cells Studied by Thickness Shear Mode Acoustic Wave Sensor Wang, Xiaomeng 26 February 2009 (has links) The thickness shear mode acoustic wave (TSM) sensor, operated in a flow-through format, has been widely used in bioanalytical research. My research is mainly focused on the study of surface-attached biomolecules and cells using the TSM sensor, including lesions in DNA, conformational change of calmodulin, as well as the properties and attachment of rat aortic smooth muscle cells. Aldehydic apurinic or apyrimidinic sites (AP sites) that lack a nucleobase moiety are one of the most common forms of toxic lesions in DNA. In this work, synthesized oligodeoxyribonucleotides containing one, two, or three abasic sites were hybridized to complementary sequences immobilized on the gold electrode of the TSM device by affinity binding. The influence of AP sites on local base stacking energy and geometry caused a dramatic destabilization of the DNA duplex structure, which was detected by the TSM sensor. The signals detected by TSM correlated well with the thermostability of DNA duplexes in solution. The results indicate that both the number of sites and their localization in the double-stranded structure influence the stability of a 19 b.p. duplex. TSM was also used to detect the binding of ions or peptides to surface-attached calmodulin. The interaction between calmodulin and ions induced an increase in resonant frequency and a decrease in motional resistance. In addition, these signal changes were reversible upon washing with buffer. The response was interpreted as a decrease in surface coupling induced by exposure of hydrophobic domains on the protein, and an increase in the length of calmodulin by approximately 3 Å. In addition, the interaction of the protein with peptide together with calcium ions was detected successfully, despite the relatively low molecular mass of the 2-kDa peptide. In addition, the attachment of smooth muscle cells to various surfaces has been monitored by TSM. These surfaces include laminin, fibronectin and bare gold. The results of these experiments in terms of changes of frequency (fs) and resistance (Rm) were analyzed. The responses of the surface-bound cells to the introduction of various ions, depolarisation events and damage subsequent to exposure to hydrogen peroxide were also observed. Morphological changes in the cells, as confirmed by atomic force microscopy and scanning electron microscopy, are correlated with results from the TSM sensor. analytical chemistry chemical sensor bioanalytical chemistry acoustic wave biosensor 0486
58	Electrochemical Studies of DNA Films on Gold Surfaces Shamsi, Mohtashim Hassan 07 January 2013 (has links) DNA-metal ion interactions are critical for stabilizing conformations of double stranded (ds) DNA and through specific binding sites will influence the interaction of DNA with other molecules. It has been shown that different metal ions bind to different sites within nucleic acids. Work in this thesis exploits the interactions of Zn2+ with nucleic acids that are linked to surfaces. Zn2+ can interact with the phosphodiester backbone and engage in interactions with the purine nucleobases. Electrochemical studies of ds-DNA films have demonstrated that in the presence of Zn2+ films containing a single nucleotide mismatch give rise to a specific electrochemical signature. Electrochemical impedance spectroscopy (EIS) allows the discrimination of mismatched DNA films from those that are fully matched by monitoring differences in the resistance of charge transfer. Scanning electrochemical microscopy (SECM) allows multiplexing of the data acquisition and monitoring of the current response I, which is attenuated as a function of mismatch. In this thesis, various potential factors were explored in detail that may impact the discrimination of nucleotide mismatches in ds-DNA films by EIS and SECM. These factors include the position of the mismatch, its type, the number of mismatches, the length of the DNA duplex, and the length of target sequences. In particular, when the two strands are of unequal length, the resulting nucleotide overhang may mask the mismatch signature. Such overhangs are expected in real biosensor applications, in which the DNA is isolated from cellular targets. Results presented here clearly demonstrate that mismatches are readily distinguished from fully matched strands even in overhang systems, suggesting that this approach has promise for realistic sensor applications. Electrochemical Label free Biosensor DNA Single nucleotide mismatch Detection 0486
59	Development of a Continuous Density Gradient of Immobilized Probes for Controlling the Stringency of DNA Hybridization Noor, Muhammad Omair 12 January 2011 (has links) A new format for microfluidic based DNA biosensors is presented in which the biorecognition element (single stranded DNA probes) is immobilized as a continuous density gradient of probes along the length of a microfluidic channel instead of a standard array format commonly used in microarray technologies or DNA based biosensors. The development of continuous density gradients of immobilized probe was achieved by electrokinetically subjecting probes that were terminated with an appropriate functional group for a surface coupling reaction to increasing convective velocity along the length of the microfluidic channel. This gradient format was able to discriminate between a fully complementary target and one containing 3 BPM based on the spatial pattern of hybridization for picomole quantities of DNA targets. Temperature mediated destabilization of DNA hybrids demonstrated that the density of immobilized probes plays an important role in the thermodynamic stability of DNA hybrids. In addition, it was found that efficiency, selectivity and melt temperature of DNA hybrids for surface based hybridization is dependent on the density of the probe molecules. density gradients selectivity DNA hybridization hybridization efficiency mass transport 0486
60	Electroanalysis of α-Synuclein Aggregation Related to Parkinson's Disease Chan, Tiffiny 23 August 2011 (has links) The main goal of this research is to provide a novel bioanalytical approach to better understand α-synuclein (AS) aggregation linked to Parkinson’s disease (PD) and characterize the implications of contributing factors such as the presence of metal ions and potential therapeutics that would inhibit or reverse AS fibrillation. Current bioanalytical techniques have reported the fibrillation process of AS however, the detection of prefibrillar formation or the nucleation phase of AS has yet to be characterized. This research aimed to address this issue and monitor the primary stages of AS fibrillation from natively soluble monomer to fibrillar aggregates. The electrochemical measurement of these processes utilized the intrinsic electroactivity of 4 tyrosine (Tyr) residues in AS observed at ~0.6 V (vs. Ag/AgCl) to monitor its early fibrillation kinetics. The research presented here provided valuable evidence of the conformational changes attributed to prefibrillar forms of AS. Parkinson's Disease Electrochemistry Alpha-synuclein Baicalein Dopamine Metal 0486

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