Global ETD Search

151	Modeling and Simulation of a Novel Electrostatic Beat Actuator for Haptic Feedback in Touch Screens Schuster, Jeremy Mitchell 03 May 2018 (has links) No description available. Mechanical Engineering Design haptics electrostatics MEMS actuators touch screens vibration tactile frequency beating
152	DNA Binding Mechanisms and Serum Stabilization of Polymeric Nucleic Acid Delivery Vectors Prevette, Lisa E. 22 April 2008 (has links) No description available. Biophysics Chemistry Polymers DNA polymers binding mechanisms microcalorimetry gene delivery
153	Simulation and characterization of electrostatic discharge (ESD) in MOSFET Hoque, MD. Anamul 01 April 2000 (has links) No description available. Electric discharges Electrostatics Electrical and Computer Engineering Engineering Systems and Communications
154	An investigation on how grade 8 learners make sens of static electricity through exploring their cultural beliefs and experiences about lightning: a case study Nanghonga, Ottilie Mwanyenenange January 2013 (has links) Lightning as a natural phenomenon is shallowly presented in the Namibian curriculum documents such as the syllabus and textbooks. This gap in curriculum triggered my interest to investigate whether learners’ meaning-making in static electricity was enabled or constrained by elicitation and integration of their cultural beliefs and experiences about lightning and by their practical activities. This study was conducted with my grade 8 learners at the school where I am currently teaching. The school is located in a rural area in Ohangwena region in Northern Namibia. The study is situated within an interpretive paradigm. Within the interpretive paradigm, a qualitative case study approach was adopted. I considered this methodological orientation appropriate in this study as it allowed me to use the following data gathering methods: document analysis, brainstorming, discussions and presentations, semi-structured interview, focus group interview, observation and an assessment test. Multiple methods to gather data were used for triangulation and validation purposes. For data analysis purposes, the data sets were colour-coded to derive themes and analytical statements. Ethical considerations were also taken seriously in this study and all participants gave consent. An analysis of data revealed that there is no learning objective or basic competence in the Namibian Physical Science syllabus for grade 8-10 that requires learners to bring in their cultural beliefs and experiences, in particular, about lightning. Yet the study revealed that learners possess a lot of prior everyday scientific and non-scientific knowledge and experiences about lightning that they had acquired from their communities. Also, mobilization of learners' everyday knowledge and experiences about lightning enabled learner engagement during the science lessons. Likewise, engaging learners in practical activities in static electricity helped them to make meaning of scientific concepts. Based on my research findings, I therefore, recommend that learners' prior everyday knowledge and experiences about lightning should be incorporated during teaching and learning of the topic on static electricity. Static electricity Cultural beliefs
155	Electrical Behavior of Non-Aqueous Formulations: Role of Electrostatic Interactions in Pressurized Metered Dose Inhalers (pMDIs) Kotian, Reshma 28 April 2008 (has links) Aerosol electrostatics is an important property of pharmaceutical aerosols. The electrostatic properties of pMDI aerosols have been shown to be a function of both formulation and packaging components. The modified ELPI enables measurement of aerosol charge as a function of particle size, and the simultaneous determination of the mass distribution using chemical analysis. However, in order to fully assess the cause and effects of aerosol electrostatics in terms of its biological and regulatory implications, it is necessary to understand the basic charging mechanisms inside the pMDI formulation. Electrical resistivity and zeta potential measurements confirmed the presence of charged species within HFA based solutions and suspensions although the nature of these species remains unknown. These measurements were influenced by the cosolvent concentration and to a lesser extent by the presence of soluble drug and surfactant. The mean electrical resistivity of a 7% ethanol / 93% HFA 134a blend (0.83 ± 0.02 MΩ.cm) was significantly lower than that reported for HFA 134a (180 MΩ.cm). Albuterol sulfate demonstrated a positive zeta potential (75.9 ± 26.2 mV) in HFA 134a. Pilot molecular modeling studies, in conjunction with the analysis of particle interactions using HINT, provided an improved understanding of the possible interactions within albuterol sulfate HFA suspension pMDIs. The predominantly negative (-7597 ± 2063) HINT score signified unfavorable interactions between albuterol sulfate and HFA 134a molecules. Systematic investigations of the electrical properties of HFA solution and suspension pMDIs using the modified ELPI demonstrated that the electrical properties were a function of the formulation type (solution/suspension), formulation components and particle size. Experimental BDP solution pMDIs produced predominantly electropositive aerosols (net charge: 160 ± 30 pC) while albuterol sulfate pMDIs produced bipolar charged aerosol clouds (net charge: -162 ± 277 pC). Finally, the modified ELPI was recalibrated using commercially available polydisperse pMDIs as calibration aerosols with a reference Andersen cascade impactor. The mean cut-off diameters for stages 4-12 obtained following recalibration of the modified ELPI were 0.44, 0.56, 0.70, 1.01, 1.40, 2.12, 3.03, 4.75, 6.37 μm, respectively in comparison to those reported by the manufacturer (0.16, 0.27, 0.39, 0.62, 0.96, 1.62, 2.42, 4.05, 6.67 μm, respectively). electrostatics metered dose inhalers electrical low pressure impactor (ELPI) particle interactions charging mechanisms Medicine and Health Sciences Pharmacy and Pharmaceutical Sciences
156	Mudanças estruturais na proteína príon celular induzidas por alteração de pH Thompson, Helen Nathalia January 2012 (has links) Os príons são proteínas que causam um grupo de doenças neurodegenerativas invariavelmente fatais, sendo uma das mais conhecidas a encefalopatia espongiforme bovina (ou doença da vaca louca). A proteína príon celular (PrPc), rica em estrutura α-helicoidal, sofre uma mudança na sua estrutura secundária produzindo a proteína patológica (PrPSc; o príon) na qual prevalecem folhas-β. Devido a falta de dados de estruturais de alta resolução dos príons, simulações de DM podem ser particularmente úteis para estudar o redobramento de PrP. Estudos experimentais e computacionais, descritos na literatura, indicam que a utilização de pH ácido é capaz de criar alguma instabilidade estrutural, produzindo um ganho de estrutura-β na região N-terminal antes desestruturada. Este trabalho se propõe a investigar computacionalmente as mudanças estruturais na proteína príon celular do hamster Sírio induzidas por alteração de pH. Para isso, foi avaliada a influência do uso de diferentes campos de força (GROMOS, AMBER e OPLS), diferentes estados de protonação dos resíduos de histidina, diferentes condições iniciais e diferentes métodos de cálculo de interações eletrostáticas de longo alcance (GRF e SPME). A partir da evolução temporal das estruturas secundárias, foi observada uma forte dependência dos resultados com o uso de diferentes parâmetros de simulação. De fato, a tendência de pH descrita na literatura não foi claramente observada neste trabalho. Isso pode estar associado com a necessidade de se investir mais em múltiplas simulações de dinâmica molecular para quantificar com maior precisão o comportamento estrutural dos fragmentos protéicos em cada pH de estudo. / Prions are proteins that cause a group of invariably fatal neurodegenerative diseases, one of the most known being bovine spongiform encephalopathy (or mad cow disease). The cellular prion protein (PrPc), rich in α-helical structure, undergoes a change in its secondary structure producing the pathological protein (PrPSc, the prion) in which β-sheet structure prevails. Because of the lack of high-resolution prion structural data, MD simulations can be particularly useful to study PrP misfolding. Experimental and computational studies, described in literature, indicate that the use of low pH is capable to create some structural instability, producing a gain of β-structure content in the otherwise unstructured N-terminal region. This work aims to investigate computationally structural changes in the cellular prion protein of Syrian hamster induced by pH change. For this, we evaluated the influence of different force fields (GROMOS, AMBER and OPLS), different protonation states of histidine residues, different initial conditions and different methods for calculating long-range electrostatic interactions (GRF and SPME). From the time evolution of the secondary structures, we observed a strong dependence on the simulation parameters. In fact, the pH tendency described in literature was not clearly observed in this work. It may be associated with the need to invest more in multiple molecular dynamics simulations to quantify more accurately the structural behavior of the protein fragments in each pH study. Proteína prion celular Dinâmica molecular Campos de força Prion Long-range electrostatics pH Force fields Molecular Dynamics Simulations
157	Développement de cellules photovoltaïques à hétérojonction de silicium et contacts interdigités en face arrière / Development of interdigitated back contact silicon heterojunction solar cells De Vecchi, Sylvain 01 July 2013 (has links) Cette thèse est axée sur la fabrication et l’optimisation d’une nouvelle structure permettant théoriquement d’améliorer les performances des cellules à base de silicium cristallin. Cette nouvelle architecture de cellule utilise la technologie des hétérojonctions de silicium a-Si:H/ c-Si (Si-HJ) appliquée sur des structures à contacts interdigités en face arrière (IBC). Le potentiel de rendement des cellules IBC Si-HJ est supérieur à 25%, mais leur fabrication nécessite une localisation des couches de a-Si:H de dopage différent et de leurs métallisations. L’intégration de ces étapes dans un procédé simplifié utilisant des techniques industrielles (PECVD, pulvérisation, sérigraphie et laser) a été étudiée. De plus, une structure obtenue sans séparation entre le BSF et l’émetteur est présentée, permettant de réduire le nombre d’étapes de fabrication. Les avantages ainsi que les limites liés à cette architecture simplifiée ont été illustrés du point de vue expérimental et par simulation. Dans le cadre de ces travaux, le rendement maximum atteint sur les dispositifs IBC Si-HJ simplifiés de 25cm² est de 19% (substrats de type n), ce qui constitue le 3e meilleur résultat au niveau mondial. Les performances des cellules restent encore limitées par l’absorption des couches de a-Si:H utilisées pour la passivation de la face avant, et par la conductivité des couches dopées en face arrière. De nombreuses pistes d’amélioration sont explorées dans cette étude. Un procédé de métallisation innovant a également été élaboré pour le passage sur des substrats de grande taille (150cm²). Il permet de limiter les pertes résistives tout en offrant de la flexibilité au niveau de la géométrie des contacts. La mise en module de cellules ayant ce design de métallisation a ensuite été étudiée, et un module de 4 cellules IBC Si-HJ a pu être fabriqué. / This thesis studies the fabrication and the optimization of a new structure to enhance the efficiency of crystalline silicon based solar cells. This new cell design uses a-Si:H/c-Si heterojunction (Si-HJ) technology applied on interdigitated back contact structures (IBC). With IBC Si-HJ solar cells, the efficiency potential is theoretically higher than 25%. Their fabrication requires to pattern doped a-Si:H and the associated metallization on the same side. The implementation of those process steps has been carefully studied. All processes used in this study are potentially industrial (PECVD, sputtering, screen-printing, and laser) and the obtained structure without buffer layer between the BSF and the emitter allows to reduce fabrication steps. Issues linked to this design have been investigated. Within the frame of this work, the maximum efficiency reached on reduced size devices (25cm²) with n-type substrate and is 19% which is the 3rd best result worldwide. The cell performances are still limited by the absorption of front surface passivating layer (a-Si:H) and by the low doped layer conductivity. Several optimization ways are explored in this study. An innovative metallization process is then elaborated to allow large area solar cell fabrication while limiting resistive losses and offering more flexibility on metallized pattern. The interconnection and the encapsulation of cells with this metallization design have been illustrated and a module with 4 cells has been fabricated. Electrostatique Photovoltaïsme Cellule photovoltaïque Silicium cristallin Procédé de metalisation Electrostatics Photovoltaics Photovoltaic Cell Crystalline Silicon Metallizing 537.540 72
158	Influence of alkali metal ion on gibbsite crystallization from synthetic bayer liquors Li , Jun January 2000 (has links) The Bayer process for the production of alumina (A1203) from bauxite involves a perennial gibbsite (y-Al(OH)3) precipitation step, relating to an inherently slow crystal growth from supersaturated sodium aluminate solutions (pregnant Bayer liquors). The kinetics and mechanisms involved in the transformation of the tetrahydroxo, Al(III)-containing species in solution into octahedrally-coordinated Al(OH)3 crystals in the presence of NA+ and excess of ions, are as yet not fully known. To gain further knowledge and better understanding of the nature of solution species, their specific interaction and participation in the gibbsite crystallization mechanisms, the role alkali ions play in the kinetic behaviour and mechanisms of nucleation, growth and aggregation/agglomeration from caustic aluminate solutions of industrial strength has been investigated. optics and opto-electronic physics fluid physics electrostatics and electrodynamics classical physics mechanisms of reactions alkali metal Bayer liquors ion gibbstie crystallization synthetic
159	Colloidal particle deposition onto charge-heterogeneous substrates Rizwan, Tania 11 1900 (has links) This dissertation investigates the influence of surface heterogeneities on colloid deposition. First, deposition of colloidal particles on a nanofiltration membrane during cross flow membrane filtration was studied under different operating pressures and solution chemistries. An atomic force microscope (AFM) was then used to observe the deposit morphology formed on the membrane. At the initial stages of fouling, more particles preferentially accumulate near the peaks than in the valleys of the rough nanofiltration membrane surface. This study demonstrates that it is difficult to isolate, correlate and assess the effects that physical (roughness) heterogeneity and chemical heterogeneity has on colloid deposition based on experiments involving surfaces where the physical and chemical heterogeneities are uncorrelated or randomly distributed. In the second phase of the study, the deposition of model colloidal particles onto patterned charge-heterogeneous surfaces was studied both experimentally and theoretically. Controlled charge heterogeneity was created experimentally employing self assembled monolayers of alkanethiols patterned onto gold substrates using a soft lithographic technique. Model colloidal particles and fluorescent nanoparticles were sequentially deposited onto the patterned substrate under no flow (quiescent) conditions, and the deposited structures and the micro-patterns were imaged in situ using a combination of phase contrast and fluorescence microscopy. This study indicates that particles tend to preferentially deposit at the edges of the chemically favourable stripes. The theoretical investigation involved the formulation of a mathematical model based on Random Sequential Adsorption (RSA). This study showed that a simple binary probability distribution assumed in the model is able to predict the experimental deposit morphology adequately, particularly the periodicity of the underlying patterns on the substrate. Furthermore, the effect of charge heterogeneity on the electrostatic double layer interaction between a particle and a charge heterogeneous planar surface was studied numerically employing a 3D finite element model. In this system, significant lateral forces at close separation distances were observed, and found to be appreciably higher when the particle is near the edge of a heterogeneous region of the substrate. From the above studies, it can be concluded that by altering/controlling the chemical heterogeneity of the substrate, it is possible to achieve significant control on the resulting deposit morphology. colloid deposition patterned substrate charge-heterogeneity random sequential adsorption electrostatics atomic force microscopy deposit morphology membrane fouling
160	Surfactants in nonpolar oils: agents of electric charging and nanogel templates Guo, Qiong 27 March 2012 (has links) This thesis studies the formation of mobile and surface-bound electric charges in nonpolar liquids. Unlike aqueous media with their natural abundance of charged species, liquids of low dielectric constant do not readily accommodate charges, but can do so in the presence of certain surfactant additives. Surfactant-mediated charging in nonpolar oils has long been exploited industrially, but the underlying charging mechanisms are far from understood. The present work seeks clarification by comparing the effect of ionic and nonionic surfactants on the conductivity of nonpolar solutions and the electrophoretically observable surface charge of suspended polymer particles. Both types of surfactant are found to generate mobile ions in solution as well as particle charge; and in the more surprising case of nonionic surfactants, the occurrence of particle charge and screening ions is confirmed independently by measurements of the electrostatic particle interaction energy. A systematic variation of the particle material and functionalization, the residual water content, and the surfactant concentration above and below the critical micelle concentration provides insights about the possible charging pathways. Reverse surfactant micelles are explored not only as charging agents, but also as reactors and templates for the synthesis of novel nanogels with promise for drug delivery. Synthesis via copper-free Click chemistry is shown to allow for better control of the particle size than a more conventional polymerization scheme, while avoiding metal catalysts and free radicals that are considered hazardous for most biomedical applications. Colloidal particles stability Electrostatic interactions Electrophoretic mobility Conductivity in nonpolar media Charge fluctuation Nanogels Nanostructured materials Electrostatics

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