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Aerodynamická optimalizace návrhu trupu letounu EV 007 Sportstar / Design of Aerodynamic Optimization of Aircraft EV 007 Sportstar FuselageLajza, Ondřej January 2008 (has links)
The diploma thesis deal with CFD based a to the aerodynamic optimalization of a fuselage and a wing fuselage junction of LSA category aircraft EV 007. Software Fluent is used.
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Rekonstrukce žst. Letohrad / Upgrading of the Letohrad railway stationDušek, Erik January 2017 (has links)
The master’s thesis deals with upgrading of the Letohrad railway station. The goal is to design new platforms suitable for passengers with reduced mobility and orientation. The necessary adjustments of track layout and assembly of switches and crossings were solved. The integral parts of the thesis are adjustments to the railway superstructure, substructure and drainage system of the station.
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Role of MKS1 in epithelial homeostasis / Rôle de MKS1 dans l'homéostasie épithélialeSong, Yuxiang 16 November 2018 (has links)
Les mutations MKS1 sont impliquées dans un groupe de ciliopathies récessives létales, telles que le syndrome de Meckel-Gruber (MKS) et le syndrome de Joubert (JBT), caractérisées par une dysplasie rénale kystique, des anomalies du système nerveux central (encéphalocèle occipitale), une polydactylie, une dysgénésie biliaire et une fibrose hépatique. MKS1 a été localisée dans la zone de transition du cil dans de nombreux types cellulaires où elle joue un rôle essentiel pour la structure et la fonction des cils, en particulier la régulation de plusieurs voies de signalisation telles que Wnt et Shh.Dans le présent travail, nous avons identifié la fonction pré-ciliaire de MKS1 dans des cellules épithéliales. Nous avons montré que la localisation subcellulaire de MKS1 varie au cours de la maturation de l’épithelium, passant du cytosol où MKS1 co-localise avec le réseau de kératine, aux jonctions cellulaires, où elle co-colocalise avec les caténines. De plus, la translocation de MKS1 des jonctions au cytosol s'est avérée être mécano-sensible, suggérant que MKS1 participe à l'homéostasie épithéliale en stabilisant les jonctions cellulaires, via la transduction des signaux mécaniques liés à la compaction de l’épithelium.L’analyse fonctionnelle a démontré que le « knockdown » de MKS1 désorganise le réseau de kératine, et déstabilise les jonctions adhérentes des cellules épithéliales en culture, avec une diminution de la β-caténine jonctionnelle et une libération de l’E-cadhérine, l’α-caténine et la vinculine dans le cytosol. De plus, la déplétion de MKS1 entraîne une diminution notable du réseau apical d’actine, ainsi que la désorganisation de la structure épithéliale et une transition partielle vers un état mésenchymateux. Ces résultats illustrent une fonction indépendante du cil de MKS1 dans l’homéostasie épithéliale, et apporte de nouvelles hypothèses quant à son rôle et celui des filaments intermédiaires dans les processus d’organogenèse des épitheliums, en particulier la tubulogenèse, qui repose à la fois sur l’équilibre de la transition épithelium/mesenchyme et la mécanotransduction des sollicitations mécaniques durant l’embryogenèseDans le but de caractériser les partenaires de MKS1, des expériences de Co-IP et d’analyses protéomiques ont permis d’identifier l’epiplakine comme un partenaire possible de MKS1. L'Epiplakine est un cytolinker capable de lier la kératine à la membrane et à l'actine ; l’interaction de MKS1 avec l’epiplakine pourrait ainsi rendre compte de la stabilisation à la fois du réseau de kératine et des jonctions cellulaires. Des analyses complémentaires de protéomique et des études fonctionnelles devront compléter ces résultats préliminaires.Finalement, ces travaux ont également permis de révéler le rôle de MKS1 dans la stabilisation des jonctions communicantes ; la déplétion de MKS1 conduisant à une diminution de la CX43 jonctionnelle et à une altération de la fonction de communication intercellulaire dans les cellules épithéliales en culture. Ces travaux, qui constituent la première mention d’une altération possible des jonctions communicantes dans ce type de maladies, devront être approfondis pour caractériser leur impact dans les processus de tubulogenèse.En conclusion, ce travail qui a permis de révéler un rôle pré-ciliaire de MKS1 dans l'homéostasie épithéliale, apporte de nouvelles hypothèses pour l’étiologie de ces maladies, jusqu’alors considérées comme essentiellement consécutives à des défauts de transduction de la signalisation ciliaire. Il propose également de nouveaux mécanismes pour rendre compte des anomalies du développement hépatique, telles que la dysgénésie des voies biliaires, et plus largement des processus de tubulogenèse impliqués dans le développement de nombreux organes. / MKS1 mutations are involved in a group of lethal recessive ciliopathies, such as Meckel-Gruber syndrome (MKS) and Joubert's syndrome (JBT), characterized by cystic renal dysplasia, central nervous system abnormalities (occipital encephalocele) , polydactyly, biliary dysgenesis and hepatic fibrosis. MKS1 has been located in the transition zone of the cilia in many cell types where it plays an essential role in the cilia structure and function, in particular in the regulation of signaling pathways such as Wnt and Shh.In the present work, we have identified the preciliary function of MKS1 in epithelial cells. We have shown that the subcellular localization of MKS1 varies during the maturation of the epithelium, from the cytosol where MKS1 co-localizes with the keratin network, to the cell junctions, where it co-localizes with the catenins. In addition, the MKS1 translocation to cytosol junctions proved to be mechano-sensitive, suggesting that MKS1 participates in epithelial homeostasis by stabilizing cell junctions, via the transduction of mechanical signals related to epithelial compaction.Functional analysis has shown that the knockdown of MKS1 disrupts the keratin network, and destabilizes the adherent junctions of epithelial cells in culture, with a decrease in the junctional β-catenin and a release of E-cadherin, the α-catenin and vinculin in the cytosol. In addition, the depletion of MKS1 results in a significant decrease in the apical actin network, as well as disorganization of the epithelial structure and a partial transition to a mesenchymal state. These results illustrate a ciliary-independent function of MKS1 in epithelial homeostasis, and provides new hypotheses regarding its role and that of intermediate filaments in epithelial organogenesis processes, in particular tubulogenesis, which is based both on the equilibrium of the epithelium / mesenchyme transition and the mechanotransduction of mechanical stresses during embryogenesisIn order to characterize MKS1 partners, Co-IP experiments and proteomic analyzes have identified epiplakin as a possible MKS1 partner. Epiplakin is a cytolinker capable of binding keratin to membrane and actin; the interaction of MKS1 with epiplakin could thus account for the stabilization of both the keratin network and cell junctions. Additional proteomic analyzes and functional studies will complement these preliminary results.Finally, this work has also revealed the role of MKS1 in the stabilization of gap junctions; the depletion of MKS1 leading to a decrease in the junctional CX43 and an alteration of the intercellular communication function in the epithelial cells in culture. This work, which constitutes the first mention of a possible alteration of gap junctions in this type of disease, will have to be further developed to characterize their impact on tubulogenesis processes.In conclusion, this work which revealed a pre-ciliary role of MKS1 in epithelial homeostasis, provides new hypotheses for the etiology of ciliopathies, previously considered as essentially consecutive to signal transduction defects. It also proposes new mechanisms to account for abnormalities of hepatic development, such as bile ducts dysgenesis, and more broadly tubulogenesis processes involved in the development of many organs.
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Aluminium and gold functionalized graphene quantum dots as electron acceptors for inverted Schottky junction type rainbow solar cellsMathumba, Penny January 2020 (has links)
Philosophiae Doctor - PhD / The main aim of this study was to prepare band gap-engineered graphene quantum dot (GQD) structures which match the different energies of the visible region in the solar spectrum. These band gap-engineered graphene quantum dot structures were used as donor materials in rainbow Schottky junction solar cells, targeting all the energies in the visible region of the solar spectrum for improved solar-to-electricity power conversion efficiency. Structural characterisation of the prepared nanomaterials under solid-state nuclear magnetic resonance spectroscopy (SS-NMR) showed appearance of bands at 40 ppm due to the presence of sp3 hybridised carbon atoms from the peripheral region of the GQD structures. Other bands were observed at 130 ppm due to the presence of polycyclic aromatic carbon atoms from the benzene rings of the GQD backbone, and around 180 ppm due to the presence of carboxylic acid carbons from oxidation due to moisture. Fourier-transform infrared resonance (FTIR) spectroscopy further confirmed the presence of aromatic carbon atoms and oxidised carbons due to the presence of C=O, C=C and -OH functional groups, concurrent with SS-NMR results. / 2023-12-01
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Application of Nanostructured Materials and Multi-junction Structure in Polymer Solar CellsGao, Yangqin 09 December 2015 (has links)
With power conversion efficiency surpassing the 10% milestone for commercialization, photovoltaic technology based on solution-processable polymer solar cells (PSCs) provides a promising route towards a cost-efficient strategy to address the ever-increasing worldwide energy demands. However, to make PSCs successful, challenges such as insufficient light absorption, high maintenance costs, and relatively high production costs must be addressed. As solutions to some of these problems, the unique properties of nanostructured materials and complimentary light absorption in multi-junction device structure could prove to be highly beneficial.
As a starting point, integrating nanostructure-based transparent self-cleaning surfaces in PSCs was investigated first. By controlling the length of the hydrothermally grown ZnO nanorods and covering their surface with a thin layer of chemical vapor-deposited SiO2, a highly transparent and UV-resistant superhydrophobic surface was constructed. Integrating the transparent superhydrophobic surface in a PSC shows minimal impact on the figure of merit of the PSC. To address the low mechanical durability of the transparent superhydrophobic surface based on SiO2-coated ZnO nanorods, a novel method inspired by the water condensation process was developed. This method involved directly growing hollow silica half-nanospheres on the substrate through the condensation of water in the presence of a silica precursor. Benefit from the decreased back scattering efficiency and increased light transport mean free path arise from the hollow nature, a transparent superhydrophobic surface was realized using submicrometer sized silica half-nanospheres. The decent mechanical property of silica and the “direct-grown” protocol are expected to impart improved mechanical durability to the transparent superhydrophobic surface.
Regarding the application of multi-junction device structure in PSCs, homo multi-junction PSCs were constructed from an identical polymer absorber, in which the homo-tandem device showed an enhanced power conversion efficiency (PCE) (8.3% vs 7.7%) relative to the optimized single junction PSC. The high open voltage (>1.8 V) achieved in homo-tandem PSCs allowed for water splitting with an estimated solar-to-fuel conversion efficiency of 6%.
Lastly, a hybrid tandem cell was also constructed using a polymer and a colloidal quantum dot subcell. Different hybrid tandem device architectures were proposed and show a promising PCE of 6.7%.
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Evaluation of Stochastic Magnetic Tunnel Junctions as Building Blocks for Probabilistic ComputingOrchi Hassan (9862484) 17 December 2020 (has links)
<p>Probabilistic
computing has been proposed as an attractive alternative for bridging the computational
gap between the classical computers of today and the quantum computers of
tomorrow. It offers to accelerate the solution to many combinatorial
optimization and machine learning problems of interest today, motivating the
development of dedicated hardware. Similar to the ‘bit’ of classical computing
or ‘q-bit’ of quantum computing, probabilistic bit or ‘p-bit’ serve as a
fundamental building-block for probabilistic hardware. p-bits are robust
classical quantities, fluctuating rapidly between its two states, envisioned as
three-terminal devices with a stochastic output controlled by its input. It is
possible to implement fast and efficient hardware p-bits by modifying the
present day magnetic random access memory (MRAM) technology. In this
dissertation, we evaluate the design and performance of low-barrier magnet
(LBM) based p-bit realizations.<br> </p>
<p>LBMs
can be realized from perpendicular magnets designed to be close to the in-plane
transition or from circular in-plane magnets. Magnetic tunnel junctions (MTJs) built
using these LBMs as free layers can be integrated with standard transistors to
implement the three-terminal p-bit units. A crucial parameter that determines
the response of these devices is the correlation-time of magnetization. We show
that for magnets with low energy barriers (Δ ≤ k<sub>B</sub>T) the circular
disk magnets with in-plane magnetic anisotropy (IMA) can lead to
correlation-times in <i>sub-ns</i> timescales; two orders of magnitude smaller
compared to magnets having perpendicular magnetic anisotropy (PMA). We show
that this striking difference is due to a novel precession-like fluctuation mechanism
that is enabled by the large demagnetization field in mono-domain circular disk
magnets. Our predictions on fast fluctuations in LBM magnets have recently
received experimental confirmation as well.<br></p>
<p>We
provide a detailed energy-delay performance evaluation of the stochastic MTJ
(s-MTJ) based p-bit hardware. We analyze the hardware using benchmarked SPICE
multi-physics modules and classify the necessary and sufficient conditions for
designing them. We connect our device performance analysis to systems-level
metrics by emphasizing problem and substrate independent figures-of-merit such
as flips per second and dissipated energy per flip that can be used to classify
probabilistic hardware. </p>
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INTEGRATION OF FERROMAGNETIC METALS IN VERTICALLY ALIGNED NANOSTRUCTURES FOR SPINTRONICSBruce Zhang (9137693) 05 August 2020 (has links)
<p>Vertically aligned nanocomposite
(VAN) thin films are a promising thin-film platform that allows the combination
of a highly desired material with another complementary oxide. Traditionally,
VANs have been limited to combining an oxide with another oxide which has shown
a wide range of functionality, and, by adjusting the different growth
parameters, it has led to the tuning of their physical properties. While VANs
have already shown to be an effective platform with immense potential, further
enhancement of physical properties can be performed by replacing one of the oxides
with a metal forming metal-oxide VANs. </p>
<p>In this dissertation, by the inclusion of the 3d transition
metals, e.g., Fe and Co, into various oxide matrices, such as La<sub>0.5</sub>Sr<sub>0.5</sub>FeO<sub>3</sub>,
BaZrO<sub>3</sub>, and BaTiO<sub>3</sub>, strong, highly anisotropic,
ferromagnetic properties have been achieved. By varying the growth parameters,
tunable physical properties, mainly coercivity and anisotropic ratio, have been
demonstrated. Furthermore, in the case of Co-BaZrO<sub>3</sub>, a multi-layer
stack has been successfully grown and demonstrated a tailorable magnetoresistance.
Additionally, a novel system by combining Fe pillars into a BaTiO<sub>3</sub>
matrix has been demonstrated. This new system allows for the combination of the
room temperature Fe ferromagnetic properties with the ferroelectric properties
of BaTiO<sub>3</sub>, allowing for coupling between the two with coercivity
tuning and tailorable ferromagnetic
properties. </p>
<p>Lastly, it has been shown a possible framework by adding additional
metals into the existing metal-oxide VAN platform. By adding the third phase,
another metal, it opens up a new avenue to induce additional functionality
while creating a method to introduce coupling between the different metals and
physical properties. </p>
<br>
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Roles of Mammalian UPF3 Paralogs in Nonsense-mediated mRNA Decay PathwayYi, Zhongxia January 2021 (has links)
No description available.
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DEFINING TISSUE LEVEL ARCHITECTURE CHANGES IN EXTRACELLULAR MATRIX DURING MURINE KIDNEY AND FORELIMB MYOTENDINOUS JUNCTION DEVELOPMENTSarah Noel Lipp (12455799) 25 April 2022 (has links)
<p> </p>
<p>Congenital diseases of the kidney are the leading cause of chronic kidney disease in pediatric patients. Tissue engineering models used to investigate these diseases are limited by an immature phenotype. Models cultured in an extracellular matrix (ECM), a network of proteins and glycosaminoglycans surrounding cells and providing structural support that mimic the matrix found in development will be likely more mature. However, developing kidney ECM composition and structural dynamics are unknown. To address this gap, we studied ECM composition using mass spectrometry and organization by visualizing the ECM in 3D.</p>
<p>In this work, we used mass spectrometry to resolve ECM basement membrane and interstitial matrix dynamics between embryonic, perinatal, and adult kidneys. Surprisingly, we observed a transient upregulation of interstitial matrix structures that corresponded to dynamic 3D structures in the cortex (vertical fibers) and at the corticomedullary junction (medullary ray sheath fibers). Notably, in a model of abnormal <em>Foxd1</em>+ stromal cells, the vertical fibers were disorganized, and medullary ray sheath fibers were no longer associated with blood vessels, suggesting the dynamic 3D structures depended on stromal cell modulation.</p>
<p>One of the effects of abnormal kidney development is decreased amniotic fluid, which limits embryonic movement and subsequent limb development. In additional studies, we looked at the implications of the lost motility in the muscular dysgenesis (<em>mdg</em>) mouse on the development of the myotendinous junction (MTJ). The MTJ links contractile muscle with tendon. We found the ECM protein COL22A1 was specific to the developing MTJ as early as embryonic day (E)13.5. The development of the MTJ from a linear structure to a cap-like structure with invaginations in adolescent mice depended on muscle contraction. Furthermore, we used a model to decouple the muscle-tendon-bone complex at an ectopic lateral triceps insertion (<em>Prrx1Cretg/+; Tbx3fl/fl</em>). We observed disorganized tendon and MTJ markers at the termination of the ectopic lateral triceps muscle but negligible cartilage markers. Together, this indicated MTJ maturation depended on motility but not on the enthesis.</p>
<p>The information gleaned from our studies on how stromal cells affect dynamic 3D interstitial ECM structures and composition change during kidney development can be used as a template for 3D kidney culture systems. Combined with forelimb MTJ development, our results indicate the importance of the interstitial matrix in tissue morphogenesis.</p>
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Tetrahydroaminoacridine and Physostigmine Have Opposing Effects on Probability of Transmitter Release at the Frog Neuromuscular JunctionProvan, Spencer D., Miyamoto, Michael D. 11 February 1991 (has links)
The effect of 1,2,3,4-tetrahydro-9-aminoacridine (THA) on quantal transmitter release was examined at the frog neuromuscular junction. THA (3 μM) caused an increase in m (no. of quanta released) as measured by K+-evoked miniature endplate potential (MEPP) frequency. This was due to an increase in p (probability of release), as n (no. of functional release sites) was unchanged. The increase in p was dose-dependent over a range of 0.3-10 μM. By contrast, physostigmine (3 μM) caused a decrease in p, and neostigmine, which does not cross the nerve membrane, had no consistent effect on p. At the postsynaptic site, neostigmine produced the largest increase in MEPP size (79.2%), and THA produced the smallest (17.5%). The divergent effects of THA and physostigmine on p indicate a fundamental difference in their actions at the nerve terminal.
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