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Stoichiometric control of co-crystal formation by solvent free continuous co-crystallization (SFCC).Kulkarni, Chaitrali S., Wood, Clive, Kelly, Adrian L., Gough, Tim, Blagden, Nicholas, Paradkar, Anant R 29 October 2015 (has links)
Yes / Reproducible control of stoichiometry and difficulties in large scale production have been identified as two of the major challenges to commercial uptake of pharmaceutical co-crystals. The aim of this research was to extend the application of SFCC to control stoichiometry in caffeine: maleic acid co-crystals. Both 1:1 and 2:1 caffeine: maleic acid co-crystals were produced by control of the feedstock composition and process conditions. It was also observed that formation of 2:1 stoichiometry co-crystals involved formation of a 1:1 co-crystal which was subsequently transformed to 2:1 co-crystals. The investigation of stoichiometric transformation revealed that although 1:1 co-crystals could be converted into 2:1 form with addition of excess caffeine, the reverse was not possible in the presence of excess maleic acid. However, conversion from 2:1 into 1:1 was only achieved by melt seeding with the phase pure 1:1 co-crystals. This investigation demonstrates that stoichiometric control can be achieved by SFCC by control of parameters such as extrusion temperature.
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Influence of process oriented guided inquiry learning (POGIL) on Science Foundation students’ achievements in stoichiometry problems at the University of NamibiaKaundjwa, Abed Osmund Tashiya 08 1900 (has links)
The study investigated the influence of Process Oriented Guided Inquiry Learning Approach (POGIL) on Science Foundation students’ achievements in stoichiometry versus traditional lecture centered pedagogy. Two intact science foundation class groups at the University of Namibia were used as a case study. A quasi-experimental non-randomized pre and posttests control group design was used to investigate the achievement in stoichiometry. Data on student achievements were collected and analyzed using descriptive statistics and Analysis of Covariance (ANCOVA). The ANCOVA results showed that there was a significant statistical difference in achievements when comparing the adjusted mean score (54.5%) obtained by the control group and the adjusted mean score (60.5%) obtained by students in the POGIL group; (F (1,75) = 17.990, p < 0.05). The POGIL group also showed the highest average improvement (65%) on questions related to reaction stoichiometry and limiting reagents, whereas the control group recorded improvements of about 53% in the same section. The results from the analysis of student’s test solutions revealed that the POGIL group students were able to give concrete reasons for their answers that they had obtained through numerical calculations or multiple choices and demonstrated enhanced understanding of linking various stoichiometry concepts. / Science and Technology Education / M. Sc. (Chemistry Education)
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Influence of process oriented guided inquiry learning (POGIL) on Science Foundation students’ achievements in stoichiometry problems at the University of NamibiaKaundjwa, Abed Osmund Tashiya 08 1900 (has links)
The study investigated the influence of Process Oriented Guided Inquiry Learning Approach (POGIL) on Science Foundation students’ achievements in stoichiometry versus traditional lecture centered pedagogy. Two intact science foundation class groups at the University of Namibia were used as a case study. A quasi-experimental non-randomized pre and posttests control group design was used to investigate the achievement in stoichiometry. Data on student achievements were collected and analyzed using descriptive statistics and Analysis of Covariance (ANCOVA). The ANCOVA results showed that there was a significant statistical difference in achievements when comparing the adjusted mean score (54.5%) obtained by the control group and the adjusted mean score (60.5%) obtained by students in the POGIL group; (F (1,75) = 17.990, p < 0.05). The POGIL group also showed the highest average improvement (65%) on questions related to reaction stoichiometry and limiting reagents, whereas the control group recorded improvements of about 53% in the same section. The results from the analysis of student’s test solutions revealed that the POGIL group students were able to give concrete reasons for their answers that they had obtained through numerical calculations or multiple choices and demonstrated enhanced understanding of linking various stoichiometry concepts. / Science and Technology Education / M. Sc. (Chemistry Education)
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CdTe/CdSe/CdTe heterostructure nanorods and I-III-VI₂ nanocrystals: synthesis and characterizationKoo, Bonil 21 June 2010 (has links)
Semiconductor nanocrystals are interesting candidates as new light-absorbing materials for photovoltaic (PV) devices. They can be dispersed in solvents and cheaply deposited at low-temperature on various substrates. Also, the nanocrystals have unique optical properties depending on their size due to the quantum size effect and moreover it is easy to uniformly control their stoichiometry. CdTe/CdSe/CdTe heterostructure nanorods and I-III-VI₂ nanocrystals were selected to synthesize and investigate in order to utilize the benefits of colloidal nanocrystals described above. Colloidal nanorods with linear CdTe/CdSe/CdTe heterojunctions were synthesized by sequential reactant injection. After CdTe deposition at the ends of initially formed CdSe nanorods, continued heating in solution leads to Se-Te interdiffusion across the heterojunctions and coalescence to decreased aspect ratio. The Se-Te interdiffusion rates were measured by mapping the composition profile using nanobeam energy dispersive X-ray spectroscopy (EDS). The rate of nanorod coalescence was also measured and compared to model predictions using a continuum viscous flow model. The synthetic method of monodisperse chalcopyrite (tetragonal) CuInSe₂ nanocrystals was also developed. The nanocrystals have trigonal pyramidal shape with one polar and three non-polar surface facets. When drop-cast onto carbon substrates, the nanocrystals self-assemble into close-packed monolayers with triangular (honeycomb) lattice structure. Moreover, the effect of excess Cu precursor (CuCl) was studied for the formation of monodisperse trigonal pyramidal CuInSe₂ nanocrystals. The formation mechanism of monodisperse trigonal pyramidal CuInSe₂ nanocrystals was suggested with regard to excess amount of CuCl precursor, based on the nucleationgrowth model of colloidal nanocrystal formation. A new wurtzite phase of CuInS₂, CuInSe₂, and Cu(InxGa1-x)Se₂ (CIGS) was observed in nanocrystals synthesized by heating metal precursors and Se-(or S-)urea in alkylamine. X-ray diffraction (XRD) showed the predominant phase to be wurtzite (hexagonal) instead of chalcopyrite (tetragonal). High resolution transmission electron microscopy (TEM), however, revealed polytypism in the nanocrystals, with the wurtzite phase interfaced with significant chalcopyrite domains. / text
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Efeitos diretos e indiretos de fertilizantes sobre comunidades aquáticas experimentais / Direct and indirect effects of fertilizers on experimental aquatic communitiesSantos, Bianca Gonçalves dos 12 July 2013 (has links)
A demanda da população humana por alimentos, fibras e biocombustíveis impõe crescimento pronunciado na agricultura intensiva e, com ela, no consumo de fertilizantes. Este manejo de fertilizantes leva a alterações dramáticas nas quantidades e proporções de nutrientes em agroecossistemas que, por sua vez, podem influenciar comunidades biológicas por meio de alterações na biomassa, qualidade nutricional e composição de produtores. Uma tendência no cenário produtivo brasileiro recente é a expansão das culturas de biocombustíveis, notadamente da cana-de-açúcar (etanol) e da soja (biodiesel), sobre ambientes de cerrado. Estas culturas, que juntas cobrem nada menos que 30 milhões de hectares do território brasileiro, demandam padrões contrastantes de fertilização. A cana-de-açúcar exige altas proporções de nitrogênio relativo a fósforo, enquanto que a soja exige altas proporções de fósforo relativo a nitrogênio. Esta dissertação teve como objetivo testar os efeitos diretos e indiretos que as alterações nas quantidades e proporções de N e P que se seguem à conversão de ambientes nativos para o cultivo de cana-de-açúcar e soja têm sobre comunidades biológicas. Estes objetivos foram testados por meio de dois experimentos em mesocosmos aquáticos manipulando nutrientes, algas, girinos e ninfas de libélulas. O primeiro experimento seguiu um delineamento fatorial completo cruzando três concentrações de N (Nreferência, Nsoja, Ncana) e três concentrações de P (Preferência, Psoja, Pcana), e dois níveis tróficos (algas e girinos de Physalaemus cuvieri). Níveis de nutrientes manipulados simularam condições medidas em corpos d´água de cerrado, ou padrões de fertilização conhecidos para culturas de cana-de-açúcar e de soja. No segundo experimento pareamos essas concentrações (Nreferência Preferência, Nsoja, Psoja, Ncana Pcana) de forma a reduzir a dimensionalidade do experimento e assim permitir a inclusão de um terceiro nível trófico (algas, girinos de Hypsiboas faber e ninfas de libélulas). Incluímos ainda um tratamento no qual as ninfas de libélulas estiveram engaioladas para separar os efeitos da predação de girinos, dos efeitos da alteração nos seus atributos. As principais variáveis de resposta em ambos experimentos foram concentração de clorofila a como indicadora de biomassa de fitoplâncton, e mortalidade, massa final e estágio de desenvolvimento final de girinos como indicadores de rendimento de consumidores. Uma comparação na concentração de clorofila antes e depois da introdução de girinos procurou testar o efeito da adição de consumidores na biomassa de produtores. Conforme esperado, NT e PT medidos responderam expressivamente à manipulação de N e P. Nas semanas que antecederam a introdução de girinos, a biomassa algal cresceu em resposta ao aumento na concentração do nitrogênio, mas não do fósforo; esta tendência se manteve ao longo dos experimentos. Isso provavelmente ocorreu porque concentrações medidas de NT variaram da oligotrofia à hipertrofia; por sua vez, concentrações medidas de PT estiveram consistentemente em valores considerados hipertróficos. A introdução de girinos não exerceu efeitos evidentes sobre a concentração de clorofila a, possivelmente indicando que o alimento era abundante o suficiente para não ocorrer competição entre consumidores. O rendimento de consumidores foi significativamente influenciado pela manipulação de nutrientes. Tratamentos ricos em P levaram a uma redução no crescimento de Physalaemus cuvieri, e uma tendência à redução no seu desenvolvimento e sobrevivência. De forma similar, o cenário de fertilização de soja - portanto rico em P - levou a uma redução significativa na sobrevivência de H. faber. Por sua vez, o cenário de fertilização de cana-de-açúcar levou a um ganho de massa de H. faber 30% superior ao controle. Formulamos a hipótese que esta diminuição no crescimento e sobrevivência de girinos em cenários de fertilização ricos em P teria sido causada pela proliferação de cianobactérias, frequentemente impalatáveis ou mesmo tóxicas, e que tendem a ser favorecidas em ambientes de baixa proporção N:P. Ao contrário do que esperávamos, ninfas de libélulas não foram capazes de promover redução direta ou indireta no crescimento ou sobrevivência de girinos, ou influenciar a biomassa de fitoplâncton. Concluímos que as alterações nos níveis de nutrientes que acompanham a conversão de ambientes nativos para paisagens agrícolas tem efeitos importantes sobre cadeias alimentares aquáticas (controle \'bottom-up\'), e que estes efeitos são muito mais fortes do que aqueles mediados pela presença de predadores (controle \'top-down\'). No entanto, estes efeitos não são necessariamente intuitivos, uma vez que determinados padrões de fertilização influenciam negativamente o rendimento de elos intermediários da cadeia e, portanto, a transmissão da biomassa para níveis tróficos superiores. / The human demand for food, fibers and biofuels imposes a pronounced growth in intensive agriculture and, with it, in the consumption of fertilizers. Fertilizer management promotes dramatic changes in the quantities and proportions of nutrients in agroecosystems which, in turn, influence biological communities through changes in the biomass, nutritional quality, and composition of producers. A recent trend in the Brazilian productive scenario is the expansion of biofuel crops - notably sugarcane (ethanol) and soybean (biodiesel) - over the cerrados. These crops, covering no less than 30 million hectares in the country, demand contrasting fertilization patterns: sugarcane requires high proportions of nitrogen relative to phosphorus, whereas soybean requires high proportions of phosphorus relative to nitrogen. The objective of this thesis was to test the direct and indirect effects that changes in the quantities and proportions of N and P that follow conversion of native habitats to sugarcane and soybean fields have on biological communities. These objectives were achieved by means of two mesocosm experiments manipulating nutrients, algae, tadpoles and dragonfly naiads. The first experiment followed a full factorial design crossing three concentrations of N (Nreference, Nsoy, Ncane) and three concentrations of P (Preference, Psoy, Pcane), as well as two trophic levels (algae and Physalaemus cuvieri larvae). Nutrient levels simulated conditions measured in water bodies of the cerrado, or patterns of fertilization known for sugarcane or soybean crops. In the second experiment we paired these concentrations (Nreference Preference, Nsoy Psoy, Ncane Pcane) so as to reduce dimensionality and as such to permit inclusion of a third trophic level (algae, Hypsiboas faber larvae, dragonfly naiads). We included an additional treament with caged naiads to separate the effects of actual tadpole predation from those of changes in tadpole traits. The main response variables in both experiments were cholophyll a concentrations as na indicator of phytoplankton biomass, and tadpole mortality, final mass and final developmental stage as indicators of consumer performance. A comparison in the concentration of chlorophyll a before and after the introduction of tadpoles tested the effect of consumers on producer biomass. As expected, measured TN and TP responded strongly to N and P manipulations. In the weeks preceding the introduction of tadpoles, algal biomass increased in response to the concentration of N, but not to the concentration of P; this trend was maintained throughout the experiment. This probably happened because measured TN varied from oligotrophic to hypertrophic conditions; in contrast, measured TP consistenly corresponded to hypertrophic conditions. Tadpole introduction had no evident effects on chlorophyll concentrations, possibly indicating that food was abundant and competition among tadpoles, if present, was weak. Consumer performance was significantly influenced by nutrient manipulations. P-rich treatments led to a reduction in growth, and to a reduction trend in development and survivorship, of Physalaemus cuvieri. Similarly, the scenario of soybean fertilization - therefore P-rich - led to a significant reduction in Hypsiboas faber survivorship. The scenario of sugarcane fertilization led to a 30% increase in mass gain in Hypsiboas faber. We hypothesized that this reduction in tadpole growth and survivorship in P-rich environments was caused by a proliferation of unpalatable or even toxic cyanobacteria, which are favored in low N:P ratio environments. Contrary to our expectations, dragonfly naiads did not cause a direct or indirect reduction in tadpole growth or survivorship, nor influence phytoplankton biomass. We conclude that changes in nutrient levels that accompany the conversion of native habitats to agricultural fields can have strong effects on freshwater food chains (\'bottom-up\' control), and that these effects are much stronger than those mediated by predator presence (\'top-down\' control). However, bottom-up effects are not necessarily intuitive as certain fertilization patterns negatively influence the performance of intermediate consumers and, as such, the transmission of biomass to higher trophic levels.
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Limitations nutritives des microorganismes décomposeurs du sol et de la litière en forêt tropicale de Guyane française / Nutritional limitation of soil and litter microbial decomposers in a tropical rainforest of French GuianaFanin, Nicolas 19 December 2012 (has links)
Les essences de forêts tropicales sont caractérisées par une importante variabilité de la qualité et de la stœchiométrie des feuilles qui tombent au sol. Les microorganismes hétérotrophes à la base des réseaux trophiques de décomposeurs dépendent principalement de ces ressources organiques qui varient de façon substantielle à petite échelle quant à la quantité et la contribution relative de certains éléments clés tels que le carbone (C), l'azote (N) et le phosphore (P). J'ai évalué au cours de cette thèse comment les variations de qualité et de stœchiométrie C:N:P de la ressource influençaient l'activité, la biomasse, la stœchiométrie et la structure des communautés des décomposeurs microbiens. J'ai réalisé ce travail en forêt Amazonienne de Guyane française sur des sols extrêmement appauvris en nutriments où les microorganismes hétérotrophes sont supposés être particulièrement dépendants du C et des nutriments provenant des litières. J'ai d'abord démontré que la qualité du C et le contenu en P des feuilles de litières expliquaient plus de 50% de la variabilité observée du processus de respiration microbien (SIR) du sol sous-jacent. Lors d'une expérience de fertilisation factorielle avec du C (sous forme de cellulose), de l'N (sous forme d'urée) et du P (sous forme de phosphate) sur le terrain, j'ai ensuite confirmé que la SIR de la communauté du sol était co-limitée par C et P, alors la SIR dans la litière était co-limitée par N et P. Ces limitations différentielles dans les litières et le sol sous-jacent étaient reliées à des modifications de la structure des communautés microbiennes, et en particulier des changements du ratio champignon:bactérie et de la proportion de bactéries copiotrophes et oligotrophes. Finalement au cours d'une expérience d'incubation au laboratoire, j'ai montré que la biomasse, la stœchiométrie et la structure des communautés microbiennes de la litière différaient fortement entre six litières chimiquement contrastées variant dans leur stœchiométrie initiale C:N:P. Cependant, les variations des paramètres microbiens étaient mieux expliqués par les caractéristiques de la fraction soluble des litières (y compris sa stœchiométrie) que par la qualité de la litière dans son ensemble, entrainant des variations de la stœchiométrie de la biomasse microbienne et un shift vers une dominance fongique en réponse à une augmentation de la stœchiométrie C:N:P des lessivâts. Collectivement, ces résultats montrent que des qualités de litière distinctes produites par une importante diversité d'essences forestières contrôlent la structure, la stœchiométrie, l'abondance et l'activité des communautés microbiennes des litières à petites échelles spatiales en forêt tropicale d'Amazonie. Par ailleurs, les litières en décomposition stimulent également les communautés microbiennes du sol sous-jacent, qui apparaissent être limitées par l'accès combiné à une source de C (énergie) et de P. L'importance de la contrainte stœchiométrique pour les microorganismes hétérotrophes à la base des réseaux trophiques de décomposeurs suggère que des modifications de la composition des communautés végétales ou des dépositions atmosphériques de N et/ou P peuvent avoir des conséquences plus lointaines sur les cycles du C et des nutriments au sein des biomes tropicaux. / Tree species-rich tropical rainforests are characterized by a high variability in quality and stoichiometry of leaf litter input to the soil. Microbial heterotrophs in the decomposer food web depend primarily on these organic resources that can vary dramatically in quantity, quality and relative contribution in key elements such as carbon (C), nitrogen (N), and phosphorus (P). I evaluated during this thesis how differences in leaf litter resource quality and C:N:P stoichiometry influence the activity, biomass, stoichiometry and community structure of microbial decomposers. I did this work in the Amazonian rainforest of French Guiana, where the soils are highly nutrient-impoverished and microbial heterotrophs are assumed to be particularly dependent on litter-derived nutrients. I first showed that leaf litter C quality and P content explained more than 50% of the observed variability of the microbial respiration process in the underlying soil. Using a fertilization experiment with C (as cellulose), N (as urea), and P (as phosphate) in the field, I further showed that microbial respiration process in the litter layer was co-limited by N and P, while that in the soil was co-limited by C and P. Additionally, distinct nutritional limitations in litter and underlying soil were related to shifts in the microbial community structure, especially regarding the fungi:bacteria ratio and the proportion of copiotrophic versus oligotrophic bacteria. Finally, during a laboratory incubation experiment, I showed that litter microbial biomass, stoichiometry and community structure differed strongly among leaf litter from six different tree species varying in C:N:P stoichiometry. The variations in microbial parameters among substrate litters, however, were not related to bulk leaf litter quality, but rather driven by the stoichiometry of the soluble fraction, with larger microbial C:nutrients ratios and a shift towards fungal dominance with increasing litter leachate C:N:P stoichiometry. Collectively, these results showed that the distinct leaf litter quality produced by a diverse tree canopy controls the structure, stoichiometry, abundance and activity of microbial communities in the studied Amazonian rainforest at small spatial scales. Moreover, the decomposing leaf litter stimulates microbial communities in the underlying soil that appear to be under the combined control of energy (C) and P availability. The strong stoichiometric constraint on microbial heterotrophs in the decomposer food web suggests far-ranging consequences on ecosystem C and nutrient cycling with ongoing alteration of nutrient deposition and tree species diversity in tropical rainforests..
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APPLICATIONS OF CELL-DERIVED VESICLES: FROM SINGLE MOLECULE STUDIES TO DRUG DELIVERYMoonschi, Faruk H. 01 January 2018 (has links)
Single molecule studies can provide information of biological molecules which otherwise is lost in ensemble studies. A wide variety of fluorescence-based techniques are utilized for single molecule studies. While these tools have been widely applied for imaging soluble proteins, single molecule studies of transmembrane proteins are much more complicated. A primary reason for this is that, unlike membrane proteins, soluble proteins can be easily isolated from the cellular environment. One approach to isolate membrane proteins into single molecule level involves a very low label expression of the protein in cells. However, cells generate background fluorescence leading to a very low signal to noise ratio. An alternative approach involves isolating membrane proteins in artificial membrane derived vesicles. This approach is limited to proteins which can be solubilized or stabilized in detergent solution. This intermediate step endangers the structural integrity of proteins with multiple subunits. Hence, we isolated transmembrane proteins into cell-derived vesicles which maintain the proteins in their physiological membrane without compromising their functional integrity. We studied the stoichiometric assembly of α3β4 nicotinic receptors which are pentameric receptor with possible stoichiometry of (α3)2(β4)3 and (α3)3(β4)2. We found that (α3)2(β4)3 is the predominant stoichiometry, and we have verified our finding with both single and double color experiments. We have also demonstrated that cell-derived vesicles can be utilized to study ligand receptor interactions.
Cell-derived vesicles generated from cellular preparations provide a method to study the overall structural and functional properties of membrane proteins. However, organelle specific information is not available in this approach. Alternatively, separating vesicles based on their original organelle could provide information on the assembly and trafficking of membrane proteins. For example, it has been hypothesized that nicotine acts as a pharmacological chaperone of α4β2 nicotinic receptors and nicotine alters the assembly of the nicotinic receptors towards the high sensitivity isoform in the ER. To validate this hypothesis, we isolated α4β2 nicotinic receptors located on vesicles derived from the ER and plasma membrane origins and utilized single molecule studies to determine the stoichiometric assembly of the receptor. The data suggested that the ER has a higher percentage of the low sensitivity isoform ((α4)3(β2)2) than the plasma membrane indicating that the high sensitivity isoform trafficked more efficiently to the cell surface. When nicotine was added, the distribution of nicotinic receptors changes in those compartments. In both the ER and plasma membrane, the percentage of high sensitivity isoform was greater than the sample without the presence of nicotine. The results suggested that nicotine altered the assembly of nicotinic receptors to form the high sensitivity isoform in the ER and the altered assembly trafficked to the plasma membrane efficiently increasing the ratio of this isoform in the plasma membrane.
The cell derived vesicles we utilized to isolate single receptors are structurally similar to liposomes, an FDA approved drug delivery system, which is spherical vesicles composed of at least one lipid bilayer. Hence, cell-derived vesicles possess potential to be utilized as drug delivery vehicles. I explored the applicability of cell-derived vesicles as general delivery vehicles to cultured cells. Additionally, we implanted xenografts into immune compromised nude mice and prepared cell derived vesicles labeled with dye molecules. The vesicles were injected in a mouse containing a xenograft to monitor whether these vesicles can reach to the xenograft. Our data suggested that cell-derived vesicles can successfully reach the xenograft and thus have potential to be utilized as a drug delivery vehicle.
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Development of materials, surfaces and manufacturing methods for microfluidic applicationsCarlborg, Carl Fredrik January 2011 (has links)
This thesis presents technological advancements in microfluidics. The overall goals of the work are to develop new miniaturized tests for point-of-care diagnostics and robust super-lubricating surfaces for friction reduction. To achieve these goals, novel materials, surfaces and manufacturing methods in microfluidics have been developed. Point-of-care diagnostic tests are portable miniaturized instruments that downscale and automate medical tests previously performed in the central laboratories of hospitals. The instruments are used in the doctor’s office, in the emergency room or at home as self-tests. By bringing the analysis closer to the patient, the likelihood of an accurate diagnosis, or a quick therapy adjustment is increased. Already today, there are point-of-care tests available on the market, for example blood glucose tests, rapid streptococcus tests and pregnancy tests. However, for more advanced diagnostic tests, such as DNA-tests or antibody analysis, integration of microfluidic functions for mass transport and sample preparation is required. The problem is that the polymer materials used in academic development are not always suited for prototyping microfluidic components for sensitive biosensors. Despite the enormous work that has gone into the field, very few technical solutions have been implemented commercially. The first part of the work deals with the development of prototype point of-care tests. The research has focused on two major areas: developing new manufacturing methods to leverage the performance of existing materials and developing a novel polymer material platform, adapted for the extreme demands on surfaces and materials in miniaturized laboratories. The novel manufacturing methods allow complex 3D channel networks and the integration of materials with different surface properties. The novel material platform is based on a novel off-stoichiometry formulation of thiol-enes (OSTE) and has very attractive material and manufacturing properties from a lab-on-chip perspective, such as, chemically stable surfaces, low absorption of small molecules, facile and inexpensive manufacturing process and a biocompatible bonding method. As the OSTE-platform can mirror many of the properties of commercially used polymers, while at the same time having an inexpensive and facile manufacturing method, it has potential to bridge the gap between research and commercial production. Friction in liquid flows is a critical limiting factor in microfluidics, where friction is the dominant force, but also in marine applications where frictional losses are responsible for a large part of the total energy consumption of sea vessels. Microstructured surfaces can drastically reduce the frictional losses by trapping a layer of air bubbles on the surface that can act as an air bearing for the liquid flow. The problem is that these trapped air bubbles collapse at the liquid pressures encountered in practical applications. The last part of the thesis is devoted to the development of novel low fluidfriction surfaces with increased robustness but also with active control of the surface friction. The results show that the novel surfaces can resist up to three times higher liquid pressure than previous designs, while keeping the same friction reducing capacity. The novel designs represent the first step towards practical implementation of micro-structured surfaces for friction reduction. / <p>QC 20110907</p>
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Micro-Structuring of New Materials Combined with Electronic Polymers for Interfaces with CellsVastesson, Alexander January 2012 (has links)
Materials based on novel Off-Stoichiometry Thiol-Ene polymers, abbreviated OSTE, show promising properties as materials forlow cost and scalable manufacturing of micro- and nanosystems such as lab-on-chip devices. The OSTE materials have tunablemechanical properties, offer possibility for low temperature bonding to many surfaces via tunable surface chemistry, and can beused in soft lithography. Unlike the commonly used elastomer poly(dimethylsiloxane), PDMS, the OSTE materials have lowpermeability for gasses, are resistant to common solvents and can be more permanently surface modified.In this master’s thesis project, the OSTE materials have been evaluated with focus on compatibility with cells, possibility fornanostructuring using soft lithography and the use of OSTE as a flexible support for conducting polymers.Results from cell seeding studies with HEP G2 cells suggest that cells can proliferate on a low thiol off-stoichiometry OSTEmaterial for at least five days. The biocompatibility for this type of OSTE material may be similar to poly(styrene). However, highlevels of free thiol monomers in the material decrease cell viability considerably.By using soft lithography techniques it is possible to fabricate OSTE nanochannels with at least the dimensions of 400 nm x 15nm. Combined with the advantages of using the OSTE materials, such as low temperature bonding and possibility for stablesurface modifications, a candidate construction material for future development of systems for DNA analysis is at hand.OSTE can serve as a flexible support for an adsorbed film of a conducting polymer with the possibility for future applicationssuch as electronic interfaces in microsystems. In this project, a film of PEDOT:PSS with the electrical resistance of ~5 kΩ wascreated by adsorption to an flexible OSTE material. Furthermore, results suggest that it is possible to further optimize theconductivity and water resistance of PEDOT:PSS films on OSTE.
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A study of the effects of oxygen environment on the stoichiometry, phase assemblage and stability of BiSCCO 2212 and 2201 using EPMARowan, Fraser S. January 2001 (has links)
A method of performing accurate oxygen analysis on cuprate based superconducting materials was established using electron probe micro analysis (EPMA). A range of YBa<sub>2</sub>Cu<sub>3</sub>O<sub>δ</sub> ceramics with varying oxygen concentration were used to test the method. Using YBCO as a reference material, a suitable standard for oxygen analysis of Bi<sub>2</sub>Sr<sub>2</sub>CaCu<sub>2</sub>O<sub>δ</sub> (BiSCCO-2212) materials was obtained. This standard was used to perform full elemental analysis of a range of BiSCCO-2212 crystals, post annealed in pO<sub>2</sub>'s between 10<sup>-5</sup>-2atm. When the average Cu valence of each crystal was calculated and plotted as a function of the critical temperature (T<sub>c</sub>) for each crystal, it was shown that BiSCCO-2212 materials conformed to the 'universal' trend illustrated by most other HTS and did not exhibit anomalous behaviour as had been previously believed. The phase assemblage and superconducting properties of BiSCCO-2212 Ag-clad multifilamental wires, prepared using the powder-in-tube (PIT) method by BICC, were studied as a function of a time/temperature profile. pO<sub>2</sub> of the processing atmosphere was found to be the predominant factor in determining the stoichiometry of the 2212 phase within wires. The phase assemblage is not simply a function of pO<sub>2</sub> as previously believed and can be controlled, in part, by the post annealing temperature. Homogenisation of the phase assemblage in BiSCCO-2212 Ag-clad wires can be achieved by prolonged heating (96hrs) at an appropriate temperature. An investigation into the 10K superconducting BiSCCO phase has shown the Sr-rich solid solution to extend towards the ideal stoichiometry of 2:2:1 (Bi:Sr:Cu) with increasing pO<sub>2</sub>. Using a combination of high pO<sub>2</sub> (60atm) to achieve the appropriate Bi:Sr stoichiometry followed by post annealing in N<sub>2</sub> to adjust the oxygen content, it was possible to prepare single-phase ceramics of stoichiometry Bi<sub>2.11(2)</sub>Sr<sub>1.90(2)</sub>Cu<sub>0.99(2)</sub>O<sub>δ</sub> with a T<sub>c</sub>=10.5K(5).
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