Global ETD Search

411	Příprava a charakterizace fotoanod s oxidem wolframovým / Fabrication and characterization of tungsten trioxide photoanodes Hesková, Helena January 2020 (has links) This work deals with the optimization of the preparation process of WO3 photoanodes nad their characterization. For compositions were prepared, which were applied to a substrate via spin-coating process and subsequently annealed at 450 °C. The length of milling of precursor particles contained in the coating formulations determined properties of deposited layers. were examined for. The additivity of the individual compositions was also observed. The structure of the layers was observed by optical microscopy and scanning electron microscopy (SEM), their composition by the X-ray diffraction (XRD) and their thickness and surface roughness was defined by contact profilometry. Photoelectrochemical properties of the prepared layers were also investigated by linear voltametry and chronoamperometry.
412	MOLECULAR DYNAMICS SIMULATION OF HYDROGEN ISOTOPES TRAPPING ON TUNGSTEN: THE EFFECT OF PRE-IRRADIATION Enes Ercikan (8053514) 29 November 2019 (has links) <p>To achieving successfully commercial nuclear fusion energy, fully understanding of the interaction between plasma particles and plasma facing components is one of the essential issues. Tungsten, due to good thermal and mechanical properties such as high thermal conductivity and melting temperature, is one of the most promising candidates. However, the plasma facing components interacting with the extreme environmental conditions such as high temperature and radiation may lead to nanostructure formation, sputtering and erosion that will lead to material degradation. And these deformations may influence not only properties of plasma facing components but also might affect the plasma itself. For example, the contamination of plasma with a few amounts of tungsten, a high Z element, as a result of erosion or sputtering may cause core plasma cooling that results in loss of plasma confinement. Additionally, the retention of hydrogen isotopes, especially tritium, in tungsten is essential issue because of its radioactivity and market value.</p> In this study, deuterium trapping in tungsten is analyzed by molecular dynamics method and the effect of pre-irradiation on trapping is studied. Non-cumulative studies show that the increase in the energy of hydrogen isotopes rises the absorption rate, the initial implantation depth, and the average resting time for initial implantation. Additionally, the effect of implanted deuterium due to pre-irradiation on the hydrogen isotopes trapping is analyzed by combining both cumulative and non-cumulative simulations, and results indicate that while the increase in the pre-irradiation time raises the absorption rate of deuterium with higher energy than 80 eV, it causes a decrease the initial implantation depth and the average resting time for initial implantation because of deuterium-deuterium interactions. Additionally, the deuterium-deuterium interactions may transfer enough energy to implanted deuterium to start a motion which may lead to deeper implantation or escaping from the surface of tungsten. The escaping from surface as a result of deuterium-deuterium interaction could explain the decrease in accumulation rate of deuterium while absorption rate rises. Nuclear Engineering LAMMPS deuterium trapping tungten pre-irradiated tungsten molecular dynamics simulations hydrogen isotopes trapping
413	Automatizace experimentu na prachových zrnech / Automation of dust charging experiment Pechal, Radim January 2013 (has links) Title: Automation of dust charging experiment Author: Radim Pechal Department: Department of Surface and Plasma Science Supervisor: RNDr. Jiří Pavlů, PhD. Supervisor's e-mail address: Jiri.Pavlu@mff.cuni.cz Abstract: Since the dust grains are expected to cause problems during operation of tokamaks, there is a developing research of these devices which raises interest in dust grain charging processes research as well. Clarification of the dust grain charging processes may help with their solutions. This thesis deals with an issue of designing a part of a new experimental setup for dust grain research built at the Department of Surface and Plasma Science, Charles University in Prague. The base of this experimental setup is original linear quadrupole trap enabling dust grain trapping and its charging by electron, ion, and UV beams. In the thesis, a method of stabilization of one part of grain oscillation frequency detection is described. The thesis is focused on a development of a control unit and high voltage power supply for an image intensifier. To measure charging processes tungsten dust grains were used. This material will be probably used in construction of ITER tomakak. Electron equilibrium characteristics and other parameters were measured. Two samples of tungsten dust grains were used for...
414	The erosion behaviour of pure tungsten electrodes in Gas Tungsten Arc Welding (GTAW) Singh, Gurjit, Schuster, Henning, Füssel, Uwe 04 March 2020 (has links) A cross-time study has been made on the erosion behaviour of Gas-Tungsten Arc Welding (GTAW) for pure tungsten electrode. Its behaviour during arcing was analyzed and compared from the points of view of metallurgical changes in electrode due to long-term operation. Metallographic studies of the electrodes indicate that the crack formation and grain growth during periodic temperature variations. These observations are discussed theoretically based on the experimental results and the thermal expansion parameters of Tungsten. info:eu-repo/classification/ddc/620 ddc:620
415	Neuro- und Gliotoxizität von Wolframcarbid-basierten Nanopartikeln in vitro Bastian, Susanne 20 January 2011 (has links) Die Anzahl neurodegenerativer Erkrankungen nimmt in unserer Gesellschaft stetig zu. Obwohl inzwischen eine Reihe genetischer Ursachen identifiziert worden sind, wird auch der Einfluss von Umweltfaktoren bei der Pathogenese dieser Erkrankungen zunehmend in Betracht gezogen. Der Beitrag von ultrafeinen Partikeln aus Industrie und Umwelt auf neurodegenerative Erkrankungen steht daher zunehmend im Fokus der Forschung. Die Translokation von ultrafeinen Partikeln bzw. Nanopartikeln ins Gehirn ist bekannt. Die Charakterisierung neuro- und gliotoxischer Wirkungen von Nanopartikeln in einem in vitro System war deshalb Ziel dieser Arbeit. Untersucht wurden Wolframcarbid-Partikel mit und ohne Cobalt, die im Herstellungsprozess von Hartmetallen von Bedeutung sind. Die meisten toxikologischen Daten wurden bisher mit mikrokristallinen WC-Pulvern an Lungenzellen bzw. -gewebe erhoben. Da aber die Verarbeitung von nanoskaligen Partikeln bessere Eigenschaften der Hartmetalle bewirkt, nimmt das Interesse an toxikologischen Studien mit WC-Nanopartikeln zu. Da die Gefahr der Translokation und Akkumulation im Gehirn beim Einatmen von Stäuben am Arbeitsplatz besteht, wurde erstmalig die Toxizität von WC-NP mit und ohne Cobalt auf Zellen des Gehirns untersucht. Für die Durchführung wurden primäre Neuronen, Astrozyten und Mikroglia sowie die Oligodendrozyten-vorläuferzelllinie OLN-93 der Ratte eingesetzt. Alle untersuchten Partikel konnten mittels Elektronenmikroskopie, ICP-Massenspektrometrie und Durchflusszytometrie in den verschiedenen Zelltypen nachgewiesen werden. Untersuchungen mit Cytochalasin D (Inhibitor der Aktinpolymerisation) deuteten auf zell- und partikelspezifische Aufnahmemechanismen hin. Experimente mit Cobaltchlorid und Natriumwolframat konnten beweisen, dass nicht die gelösten Ionen für die Toxizität von WC-Co ursächlich waren, sondern die Partikelform von entscheidender Bedeutung ist. Es zeigte sich jedoch, dass einige der WC-Co verursachten Effekte vermutlich auf dem Cobaltanteil beruhen. Offensichtlich dienen WC-Co-NP als Vehikel, um Cobalt in die Zellen einzuschleusen. Zur toxischen Wirkung trägt auch das Reaktionsvermögen von WC und Cobalt an der beiderseitigen Grenzfläche bei, denn dadurch können in der Zelle vermehrt reaktive Sauerstoffspezies gebildet werden. Im Rahmen der Untersuchungen wurden die zeit- und konzentrationsabhängigen Effekte der Nanopartikelexposition auf die Vitalität, die Proliferation, das Adhäsionsverhalten, das mitochondriale Membranpotential und die Induktion apoptotischer und nekrotischer Zelluntergänge untersucht. Dabei wurden verschiedene Vitalitäts- und Proliferationstests angewendet, um die häufig beobachteten Wechselwirkungen zwischen Reagenzien und Nanopartikeln auszuschließen. Nicht alle untersuchten Nanopartikel erwiesen sich in den durchgeführten Experimenten als akut toxisch. Nur eine Exposition mit WC-Co-NP führte nach 72 h zu einer deutlich verringerten Vitalität und Proliferation bei Astrozyten und OLN-93 Zellen. Eine Exposition mit WC-Co-NP zeigte des Weiteren eine geringe Induktion von Apoptose und Nekrose bei Astrozyten, nicht aber bei OLN-93 Zellen. Neurone wiesen nach einer Exposition mit NP eine wenig verringerte Vitalität auf. Es wurde festgestellt, dass erst die primäre Schädigung von Astrozyten zu einer sekundären Neuronenschädigung führt. Bei der Bewertung der NP-Toxizität müssen daher unbedingt die Wechselwirkungen der Zellen bedacht werden. Die Exposition mit WC- und WC-Co-NP beeinflusste das mitochondriale Membranpotential und das Adhäsionsverhalten der untersuchten Zellen. Neuronen und OLN-93 Zellen zeigten nach NP-Exposition eine verminderte Adhäsion. Auch physiologische Kalziummessungen lieferten einen Hinweis für die veränderte Funktionalität glialer Zellen nach einer NP-Exposition. Des Weiteren wurde die Expression einiger Gene, bedeutend für Adhäsion und extrazelluläre Matrix, mit realtime RT-PCR bei OLN-93-Zellen und Astrozyten überprüft. Es konnte eine Regulation von Mmp9, Timp1, Lama3, Tgfbi, Col8a1 und Hmox1 gezeigt werden. Zusammenfassend lässt sich feststellen, dass die ausgewählten Nanopartikel nicht per se neuro- und gliotoxisch wirkten. Die Partikel können anhand abnehmender Toxizität wie folgt geordnet werden: WC-Co > WC 100na > WC 10n. Auch die Reaktionen der Zellen fielen unterschiedlich aus: die Astrozyten erwiesen sich als die sensitivsten Zellen. Eine Exposition des Gehirns mit WC-Co-NP in hohen Konzentrationen oder über einen längeren Zeitraum könnte also weit reichende Folgen haben, angefangen bei einer gestörten Signalweiterleitung über eine erhöhte Permeabilität der Blut-Hirn-Schranke bis hin zu neurodegenerativen Veränderungen. Diese und weitere Untersuchungen könnten bei der Erstellung von Arbeitsrichtlinien im Umgang mit Hartmetallen, deren Ausgangsmaterial nanoskalige Pulver sind, hilfreich sein und damit einen Beitrag zum Schutz der Arbeiter liefern. info:eu-repo/classification/ddc/570 ddc:570
416	Influence of Vanadium and Tungsten on the Bainite start temperature Malmberg, Andreas January 2013 (has links) No description available. Bainite start temperature Transformation Barrier Influence Vanadium Tungsten Metallurgy and Metallic Materials Metallurgi och metalliska material
417	The Electrochemical Etching Process of a Tungsten Wire Richardson, Aaron Michael 08 1900 (has links) This study produced and analyzed shaped tungsten wire tips formed through electrochemical etching. Specifically, the cone length and the radius of curvature of the tip were analyzed. Having the tips move dynamically through an electrolytic solution, such as potassium hydroxide, and tuning the initial starting depth of the tungsten wire along with the dynamic speed of the tungsten wire as it passed throughout the solution allowed various types of tip profiles to be produced. The tip's radius of curvature was able to be reproduced with an accuracy between 88 - 92 %. The method provided would be applicable for the production of various styles of liquid-metal ion source (LMIS) probes and scanning probe microscope (SPM) tips. electrochemical etching tungsten tip radius
418	SELECTIVITY OF METATHESIS REACTIONS CATALYZED BY SUPPORTED COMPLEXES OF GROUP VI Wackerow, Wiebke 11 1900 (has links) The general objective of this thesis is the analysis of selective reactions for group VI grafted metal complexes via methods and principles of SOMC. For this objective, three approaches have been chosen. The first chapter is an introduction to the topic of selectivity in catalysis, emphasizing heterogeneous catalysis and more specifically the different approaches to support catalysts on surfaces. The concept of catalysis by design is introduced as a new way to use the surface as a ligand. Chapter 2 presents the results of a library of well-defined catalysts of group VI with identical catalytic functionality, but different ligand environment. The results reveal, that metal-carbynes are able to switch their catalytic reactivity based on the substrate that they are contacted with. The difference in reaction mechanisms and the differing reactivities towards the substrates are presented. It can be concluded that the classical ROMP is selectively achieved with cyclic alkene substrates leading to polymers whereas cyclic alkanes yield exclusively higher and lower homologues of the substrate without polymeric products. Chapter 3 presents the study of olefin metathesis of cis-2-pentene with metal-carbynes of group VI, where the selectivity of the catalyst library towards yield of cis-/trans products is analyzed. It is presented, that the ligand environment of the catalysts is showing an influence in the selectivity. Rates of cis/trans isomerization of the products are high and are approaching thermodynamic equilibrium at high conversion. Product isomerization, thermodynamic equilibrium and reactivity differences between liquid phase and gas phase products are analyzed. Chapter 4 presents the full characterization of tungsten-hydrides by selective transformation into tungsten-hydroxides. These newly discovered well-defined tungstenhydroxides are fully characterized by ICP, TEM, DRIFT, double quantum and triple quantum solid-state NMR. The presented results allow to predict that tungsten-hydrides on KCC-1700 are present as two distinct species. Catalysis results with cyclooctane show, that due to burial of the complexes in the KCC-1700 surface the tungsten-hydrides are less active towards cyclic alkane metathesis reactions with bulky cyclooctane than the metalcarbyne complexes. Chapter 5 is giving a conclusion of results and an outlook for catalytic applications of the generated tungsten-hydroxides of chapter 4. heterogeneous catalysis SOMC single-site alkane metathesis metallo carbynes tungsten hydrides
419	The Effect of Nitrogen Surface Ligands on Propane Metathesis: Design and Characterizations of N-modified SBA15-Supported Schrock-type Tungsten Alkylidyne Eid, Ahmed A. 04 1900 (has links) Catalysis, which is primarily a molecular phenomenon, is an important field of chemistry because it requires the chemical conversion of molecules into other molecules. It also has an effect on many fields, including, but not limited to, industry, environment and life Science[1]. Surface Organometallic Chemistry is an effective methodology for Catalysis as it imports the concept and mechanism of organometallic chemistry, to surface science and heterogeneous catalysis. So, it bridges the gap between homogenous and heterogeneous catalysis[1]. The aim of the present research work is to study the effect of Nitrogen surface ligands on the activity of Alkane, Propane in particular, metathesis. Our approach is based on the preparation of selectively well-defined group (VI) transition metal complexes supported onto mesoporous materials, SBA15 and bearing amido and/or imido ligands. We choose nitrogen ligands because, according to the literature, they showed in some cases better catalytic properties in homogenous catalysis in comparison with their oxygen counterparts[2]. The first section covers the modification of a highly dehydroxylated SBA15 surface using a controlled ammonia treatment. These will result in the preparation of two kind of Nitrogen surface ligands: - One with vicinal silylamine/silanol, (≡SiNH2)(≡SiOH), noted [N,O]SBA15 and, - Another one with vicinal bis-silylamine moieties (≡SiNH2)2, noted [N,N]SBA15[3]. The second section covers the reaction of Schrock type Tungsten Carbyne [W(≡C- tBu)(CH2-tBu)3] with those N-surface ligands and their characterizations by FT-IR, multiple quantum solid state NMR (1H, 13C), elemental analysis and gas phase analysis. The third section covers the generation of the active site, tungsten hydride species. Their performance toward propane metathesis reaction using the dynamic reactor technique PID compared toward previous well-known catalysts supported on silica oxide or mesoporous materials[4]. A fairly good turn over number (TON = 43) has been obtained following hydrogen treatment of tungsten alkylidyne supported on [N,O] SBA151100, in comparison with TON of zero in the obtained with [N,N] SBA15 and classical SiO2 silica support. Therefore, the cooperation between silylamine and silanol in close vicinity are required to improve the efficiency of the catalyst in the metathesis of propane. Surface organometallic chemistry Catalysis propane metathesis nitrogen ligands tungsten alkylidyne grafting
420	Exploration of the Cold-Wall CVD Synthesis of Monolayer MoS2 and WS2 January 2019 (has links) abstract: A highly uniform and repeatable method for synthesizing the single-layer transition metal dichalcogenides (TMDs) molybdenum disulfide, MoS2, and tungsten disulfide, WS2, was developed. This method employed chemical vapor deposition (CVD) of precursors in a custom built cold-wall reaction chamber designed to allow independent control over the growth parameters. Iterations of this reaction chamber were employed to overcome limitations to the growth method. First, molybdenum trioxide, MoO3, and S were co-evaporated from alumina coated W baskets to grow MoS2 on SiO2/Si substrates. Using this method, films were found to have repeatable coverage, but unrepeatable morphology. Second, the reaction chamber was modified to include a pair of custom bubbler delivery systems to transport diethyl sulfide (DES) and molybdenum hexacarbonyl (MHC) to the substrate as a S and Mo precursors. Third, tungsten hexacarbonyl (WHC) replaced MHC as a transition metal precursor for the synthesis of WS2 on Al2O3, substrates. This method proved repeatable in both coverage and morphology allowing the investigation of the effect of varying the flow of Ar, varying the substrate temperature and varying the flux of DES to the sample. Increasing each of these parameters was found to decrease the nucleation density on the sample and, with the exception of the Ar flow, induce multi-layer feature growth. This combination of precursors was also used to investigate the reported improvement in feature morphology when NaCl is placed upstream of the substrate. This was found to have no effect on experiments in the configurations used. A final effort was made to adequately increase the feature size by switching from DES to hydrogen sulfide, H2S, as a source of S. Using H2S and WHC to grow WS2 films on Al2O3, it was found that increasing the substrate temperature and increasing the H2S flow both decrease nucleation density. Increasing the H2S flow induced bi-layer growth. Ripening of synthesized WS2 crystals was demonstrated to occur when the sample was annealed, post-growth, in an Ar, H2, and H2S flow. Finally, it was verified that the final H2S and WHC growth method yielded repeatability and uniformity matching, or improving upon, the other methods and precursors investigated. / Dissertation/Thesis / Doctoral Dissertation Physics 2019 Materials Science 2D Materials Chemical Vapor Deposition Molybdenum Disulfide Semiconductor Transition Metal Dichalcogenide Tungsten Disulfide

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