Global ETD Search

21	Investigation of Interface, Defects, and Growth of GaSb/Si Heteroepitaxial Films using Aberration-Corrected Scanning Transmission Electron Microscopy Hosseini, Vajargah Shahrzad 04 1900 (has links) <p>Heteroepitaxial films of group III-antimonide-based semiconductor compounds on Si are amongst the most appealing candidates for solar applications because of the well-established Si platform and also for offering band-gap energies beyond the silicon road map. Nonetheless, high lattice mismatch between GaSb and Si as well as ambiguous nucleation of GaSb on Si are major drawbacks in manufacturing of heteroepitaxial GaSb/Si films because they can generate various defects in films. Atomic-level detection of these defects and delving into their origin, orientation, distribution, propagation, and interaction with each other will therefore provide an insight into inhibiting their formation or reducing their severity. State-of-the-art aberration-corrected transmission electron microscopes have marked a new era in the investigation of interfaces and defects. With sub-angstrom electron probes in scanning transmission electron microscopes, it is possible to pinpoint the individual atomic columns at interfaces and defects.</p> <p>In this thesis, GaSb epilayers grown with molecular beam epitaxy on Si substrates were studied through aberration-corrected scanning transmission electron microscopy. The strain-relief mechanism of the epitaxial GaSb through formation of interfacial misfit dislocations was investigated and the strain distribution in the vicinity of dislocation cores as well as epitaxial layer was analyzed. The specific atomic-number dependent contrast mechanism of the high-angle annular dark-field technique enabled the unprecedented direct observation of anti-phase boundaries, the extended defects of highest interest in polar-on-nonpolar growths. This observation unraveled the ambiguity of nucleation of GaSb at interface regardless of preferential deposition of atomic species during growth procedure. The growth of GaSb at the initial stage of deposition was further investigated to understand the role of an AlSb buffer layer and growth mechanism of GaSb precisely. This investigation showed that AlSb and GaSb epilayers occur by Volmer-Weber growth mode and AlSb islands provide energetically favorable nucleation sites for GaSb film. Furthermore, taking advantage of atomic-resolution detection capability of high-angle annular dark-field in scanning transmission electron microscopy a novel mechanism of strain relief through multiple twining resulting in a lattice-registered growth of GaSb on Si(211) was elucidated. This contribution demonstrates that aberration-corrected scanning transmission electron microscopy provides profound insight into the polar-on-nonpolar growth which can be exploited to suppress the formation of structural defects.</p> / Doctor of Philosophy (PhD) GaSb/Si Interface Defects Heteroepitaxy HAADF-STEM
22	Comparing Single-Case Design Non-Overlap Metrics and Visual Analysis Examining School-Based Interventions for Students with Autism Spectrum Disorder Alresheed, Fahad 11 January 2019 (has links) High prevalence of individuals with autism spectrum disorder (ASD) and the legislation movement impacted the placement of students with ASD in general education settings. Hence, the increase raised the need to conduct research for ASD populations, and to examine the effectiveness of these interventions. With the increase of single case-design (SCD) studies, there is a demand to include SCD in the evaluation of evidence- based practices (EBPs), to analyze and interpret SCD results in meaningful ways beside visual analysis, and to generate effect size estimates. This dissertation contains four systematic literature reviews which examine single-case intervention research targeting academic, social communication, play, and functional life skills for children with ASD in school settings. 132 studies with 924 AB phase contrasts were analyzed using visual analysis and three non-overlap measures. Sensitivity and specificity of Tau-U, IRD, and Baseline Corrected Tau were tested on detecting intervention effects. Also, the three methods were examined in their agreement with interpretations based on the visual analysis and the effect of confounding factor on their scores. The analysis demonstrated that the three methods performed fairly well in distinguishing effective from non-effective interventions. The three non-overlap methods had a moderate to substantial level of agreement with visual analysis. The author recommended further research on the impact of confounding factors especially baseline trend and autocorrelation as well as the use of effect size methods with high sensitivity and visual aids to improve the reliability and accuracy of visual analysis. Autism spectrum disorder Non-overlap metrics School-based interventions Single-case design Tau-U IRD Baseline Corrected Tau Visual analysis
23	Alternative Methods of Estimating the Degree of Uncertainty in Student Ratings of Teaching Alsarhan, Ala'a Mohammad 01 July 2017 (has links) This study used simulated results to evaluate four alternative methods of computing confidence intervals for class means in the context of student evaluations of teaching in a university setting. Because of the skewed and bounded nature of the ratings, the goal was to identify a procedure for constructing confidence intervals that would be asymmetric and not dependent upon normal curve theory. The four methods included (a) a logit transformation, (b) a resampling procedure, (c) a nonparametric, bias corrected accelerated Bootstrapping procedure, and (d) a Bayesian bootstrap procedure. The methods were compared against four criteria including (a) coverage probability, (b) coverage error, (c) average interval width, and (d) the lower and upper error probability. The results of each method were also compared with a classical procedure for computing the confidence interval based on normal curve theory. In addition, Student evaluations of teaching effectiveness (SET) ratings from all courses taught during one semester at Brigham Young University were analyzed using multilevel generalizability theory to estimate variance components and to estimate the reliability of the class means as a function of the number of respondents in each class. The results showed that the logit transformation procedure outperformed the alternative methods. The results also showed that the reliability of the class means exceeded .80 for classes averaging 15 respondents or more. The study demonstrates the need to routinely report a margin of error associated with the mean SET rating for each class and recommends that a confidence interval based on the logit transformation procedure be used for this purpose. student evaluations of teaching confidence interval reliability of class means logit transformation resampling bias corrected accelerated Bayesboot
24	Untersuchungen zum Einfluss von London-Dispersionswechselwirkungen auf die Molekülaggregation / Influence of London dispersion on molecular aggregation Altnöder, Jonas 21 May 2015 (has links) No description available. 540 hydrogen bonding vibrational spectroscopy supersonic jet aggregation quantum chemical calculations dispersion-corrected DFT FTIR Raman Chemie (PPN62138352X)
25	Atomic-scale Structural Characterizations of Functional Epitaxial Thin Films Zhu, Yuanyuan 16 December 2013 (has links) A precise understanding of the fundamental correlation between synthesis, microstructure and physical properties is of vital importance towards rational design of improved functional epitaxial thin films. With the presence of heterogeneous interface and associated inhomogeneous lattice strain, film microstructure becomes sensitive to subtle interfacial perturbations and hence may exhibit intriguing physical properties. Control of the epitaxial film functionality requires accurate knowledge of the actual film chemistry, interfacial defects and associated strain field. This dissertation reports in-depth microstructural characterization of the intrinsic chemical inhomogeneity in selected epitaxial thin films including superconducting Fe1+yTe1-xSex/SrTiO3(STO) heterogeneous systems, the flux-pinning defects at both of conversional YBa2Cu3O7-δ (YBCO)/substrate lateral interfaces and vertical interfaces of YBCO&BaSnO3(BSO) nanocomposite films, and the misfit dislocation core configurations of STO/MgO and MgO/STO heterostructures pair, using the state-of-the-art aberration-corrected scanning transmission electron microscopy (CS-corrected STEM) in combination with geometric phase analysis (GPA). For the first time, the local atomic arrangement of Te and Se as well as interstitial Fe(2) has been clearly revealed in superconducting Fe1+yTe1-xSex/STO epitaxial films. We found that the film growth atmosphere can greatly affect the film stoichiometry, the homogeneity of Se/Te ordering and thus the overall film superconductivity. YBCO/substrate interface mismatch and YBCO&BSO vertical interface contact have been explored through substrate selection and doping-concentration variation. We observed a diverse nature of intrinsic defects in different YBCO/substrate heterosystems; thermal stable defects capable of maintaining individual strain field have been found effective in flux-pinning. Along the vertical heterointerface of YBCO/BSO, misfit dislocations were found throughout the film thickness. It adds another dimension to the flux-pinning landscape design. Four basic misfit dislocation core configurations of a STO/MgO heterosystem have been identified, and found strongly dependent on the actual interface disordering such as substrate atomic-height steps and interdiffussion. To precisely quantify the heterointerface lattice strain, we first conducted systematic investigations on the accuracy of STEM-based GPA. Follow our protocol, 1 pm accuracy has been proven in the STEM fast-scan direction with a spatial resolution less than 1 nm. The effectiveness and reliability of this optimized GPA strain profile were demonstrated in both applications of a relaxed STO/MgO and a partially strained LaAlO3/STO heterointerfaces, respectively. epitaxial thin films misfit dislocations interface defects lattice strain geometric phase analysis.
26	Non-covalent interactions in natural products / Les interactions non-covalentes dans les produits naturels Bayach, Imene 10 October 2014 (has links) Les polyphénols naturels forment des complexes non-covalents dans lesquels le π-stacking et les liaisons hydrogène jouent un rôle clé dans la stabilisation. Les calculs DFT incluant la dispersion (DFT-D), la description des processus d'agrégation non-covalente de produits naturels devient fiable. Dans ce travail, les méthodes DFT-D sont appliquées à i) la compréhension de la biosynthèse stéréo- et régio-sélective des oligostilbenoïdes, ii) la prédiction de l'agrégation des antioxydants naturels au sein de la membrane bicouche lipidique, qui pourrait rationaliser la synergie de la vitamine E, la vitamine C et polyphénols dans leur action antioxydante, et iii) la modulation des propriétés optiques de dérivés de chalcones. / Natural polyphenols form non-covalent complexes in which π-stacking and H-bonding play a key stabilizing role. The dispersion-corrected DFT calculations have paved the way towards reliable description of aggregation processes of natural products. In this work, these methods are applied at i) understanding of stereo- and regio-selective oligostilbenoids biosynthesis; ii) predicting natural antioxidant aggregation within lipid bilayer membrane, which may allow rationalizing the synergism of vitamin E, vitamin C and polyphenols in their antioxidant action; and iii) modulating optical properties of chalcone derivatives. DFT-D Associations non-covalentes Polyphénols Stilbénoïdes Antioxydants DFT-D (dispersion-corrected) Non-covalent association Polyphenols Stilbenoids Antioxydants 660.63
27	Vnitropodnikové směrnice v Quaprotek Manufakturing, k.s / Internal Guidelines in Quaprotek Manufakturing, k.s Doležalová, Jana January 2015 (has links) The master´s thesis focuses on the internal guidelines of the company Quaprotek Manufacturing, k. s. The theoretical bases of internal guidelines will be discussed in the first part and the basic concepts. In the second analytical part of the thesis the selected company will be introduce and analyze and the existing internal guidelines will be analyzed and evaluated. In the last part I will propose necessary internal guidelines, draft the formal aspects of the internal directive of the company and adjust the existing directives and create some missing directives.
28	Single-Cell Impedance Spectroscopy Lange, David Paul 01 December 2019 (has links) (PDF) Impedance spectroscopy (IS) is an important tool for cell detection and characterization in medical and food safety applications. In this thesis, the Cal Poly Bioﬂuidics Lab’s impedance spectroscopy system was re-evaluated and optimized for single-cell impedance spectroscopy. To evaluate the IS system, an impedance spectroscopy bioMEMS chip was fabricated in the Cal Poly Microfabcrication lab, software was developed to run IS experiments, and studies were run to validate the system. To explore IS optimization, Maxwell’s mixture theorem and the Schwartz-Christoffel transform were used to calculate an analytic impedance solution to the co-planar electrode system,a novel volume fraction to account for the non-uniformity of the electric ﬁeld was developed to increase the accuracy of the analytic solution and to investigate the effect of cell position on the impedance spectrum, a software program was created to allow easy access to the analytic solution, and FEA models were developed to compare to the analytic solution and to investigate the effect of complex device geometry. Impedance Spectroscopy MEMs Corrected Maxwells Mixture Diagnostics FEA Optimization Bioelectrical and Neuroengineering Biomedical Devices and Instrumentation
29	THE USE OF TELEMETRY DATA IN AN AIR DATA SYSTEM Morrison, Thomas M. 10 1900 (has links) ITC/USA 2006 Conference Proceedings / The Forty-Second Annual International Telemetering Conference and Technical Exhibition / October 23-26, 2006 / Town and Country Resort & Convention Center, San Diego, California / Telemetry data are usually collected for analysis at some later time and can be monitored to follow the progress of a test. In the case of an Air Data System the signals from the sensors are sent to a computer that calculates the air data parameters for use on multiple LabView-generated displays, as well as to the Data Acquisition System. The readouts on the multiple displays need to be real-time so they are useful to the flight crew. Equations that control the different air data values are determined by what telemetry data are available and the preference of those doing the test planning. These systems need to display the information in a format useful to the flight crew and be reliable. Air Data System (ADS) Indicated Airspeed Indicated Mach Number Indicated Angle of Attack (AOA) Indicated Angle of Sideslip (AOS)
30	Transmission Electron Microscopy of 2D Materials : Structure and Surface Properties Karlsson, Linda January 2016 (has links) During recent years, new types of materials have been discovered with unique properties. One family of such materials are two-dimensional materials, which include graphene and MXene. These materials are stronger, more flexible, and have higher conductivity than other materials. As such they are highly interesting for new applications, e.g. specialized in vivo drug delivery systems, hydrogen storage, or as replacements of common materials in e.g. batteries, bulletproof clothing, and sensors. The list of potential applications is long for these new materials. As these materials are almost entirely made up of surfaces, their properties are strongly influenced by interaction between their surfaces, as well as with molecules or adatoms attached to the surfaces (surface groups). This interaction can change the materials and their properties, and it is therefore imperative to understand the underlying mechanisms. Surface groups on two-dimensional materials can be studied by Transmission Electron Microscopy (TEM), where high energy electrons are transmitted through a sample and the resulting image is recorded. However, the high energy needed to get enough resolution to observe single atoms damages the sample and limits the type of materials which can be analyzed. Lowering the electron energy decreases the damage, but the image resolution at such conditions is severely limited by inherent imperfections (aberrations) in the TEM. During the last years, new TEM models have been developed which employ a low acceleration voltage together with aberration correction, enabling imaging at the atomic scale without damaging the samples. These aberration-corrected TEMs are important tools in understanding the structure and chemistry of two-dimensional materials. In this thesis the two-dimensional materials graphene and Ti3C2Tx MXene have been investigated by low-voltage, aberration-corrected (scanning) TEM. High temperature annealing of graphene covered by residues from the synthesis is studied, as well as the structure and surface groups on single and double Ti3C2Tx MXene. These results are important contributions to the understanding of this class of materials and how their properties can be controlled. Transmission Electron Microscopy Two-dimensional materials Graphene MXene Ti3C2Tx Low-voltage TEM Aberration-corrected TEM monchromated TEM Electron energy loss spectroscopy

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