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561	Lichtinduzierte Generierung von optisch anisotropen Filmen auf der Basis von multi-funktionalen Polymeren Rosenhauer, Regina January 2004 (has links) Gegenstand der Arbeit ist die lichtinduzierte Orientierung von multifunktionalen Polymeren, die u.a. für die Herstellung von optischen Schichten in Flüssigkristalldisplays verwendet werden können. Dafür wurden Polymere entwickelt, die wenigstens eine mesogene und eine lichtsensitive Gruppe enthalten. Diese Gruppen zeigen Eigenschaften, die für die Orientierung der kompletten Polymerfilme verantwortlich sind. Das Material wird dafür zunächst in einem ersten Schritt kurz mit linear polarisiertem Licht bestrahlt, wobei richtungsabhängig eine photochemische Reaktion an der lichtsensitiven Gruppe erfolgt und dadurch ein "Orientierungskeim" gelegt wird. Durch die thermische Ausrichtung der mesogenen Gruppen an den photochemisch generierten "Orientierungskeimen" erfolgt die komplette Orientierung des Filmes in einem zweiten Schritt. Dadurch wird eine hohe optische Anisotropie erhalten. Dieses Verfahren wurde als Zwei-Stufen-Bulk-Orientierungsprozess bezeichnet. <br><br> In der vorliegenden Arbeit wurden die Photoreaktionen verschiedener lichtsensitiver Gruppen, wie z. B. Azobenzen, Stilben und Zimtsäureester und deren Orientierungsfähigkeit in flüssigkristallinen Polymeren untersucht. Der Orientierungsprozess wurde durch die Wahl geeigneter Bestrahlungsbedingungen optimiert. Die Effizienz der Orientierung wurde anhand der sich verändernden winkelabhängigen Absorptionseigenschaften und der Doppelbrechung des Materials analysiert. Es wurde gezeigt, dass eine effiziente lichtinduzierte Orientierung bei einer Vielzahl von flüssigkristallinen Polymeren realisierbar ist. So wurde z. B. erstmalig gefunden, dass durch eine Photo-Fries-Orientierung eine hohe optische Anisotropie erhalten werden kann. Außerdem wurde eine neue lichtsensitive Gruppe auf der Basis von Donor-Akzeptor-substituiertem Ethen entwickelt, die farbneutral ist und durch polarisiertes UV-Licht sowohl orientiert als auch re-orientiert werden kann. <br><br> Es wurden weiterhin Polymere entwickelt, die zusätzlich zu den photosensitiven und flüssigkristallinen Einheiten, fluoreszierende Gruppen enthalten. Die Auswahl geeigneter Fluoreszenzverbindungen erfolgte aufgrund ihrer anisometrischen Form, ihrer Ordnungsparameter in einer niedermolekularen Flüssigkristallmischung und ihrer Photostabilität. Das Orientierungsverhalten von ausgewählten Fluorophoren wurde in sechs Ter- und zwei Copolymeren untersucht. Das Prinzip der Orientierung beruht auf einer kooperativen Ausrichtung der Seitengruppen. Aus diesem Grund kommt dem Nachweis der Kooperativität in der vorliegenden Arbeit eine besondere Stellung zu. <br><br> Durch lichtinduzierte Bulk-Orientierung wurden Filme erhalten, welche durch eine richtungsabhängige Fluoreszenz und Absorption im sichtbaren- oder UV-Bereich charakterisiert sind. Die Fluoreszenz wird durch einige lichtsensitive Verbindungen komplett gelöscht. Die wahlweise erhaltenen anisotropen Filme von farbigen, fluoreszierenden oder farbneutralen Verbindungen, die zudem in kleinen Pixeln von wenigen Mikrometern orientiert werden können, eröffnen vielfältige Möglichkeiten für den Einsatz von multi-funktionalen Polymeren als optische Schichten in Flüssigkristalldisplays. / The work presents the light-induced orientation of multifunctional polymers, which can be used for the preparation of optical films in liquid crystal displays (LCDs). Polymers which contain at least one mesogenic and one photosensitive side group were developed for this approach. The side groups of the specially designed polymers show properties which allow for the orientation of the whole polymer film. Isotropic films of the polymeric material were shortly irradiated with linearly polarised light in a first step. So, a photochemical reaction on the light-sensitive group takes place and results in the generation of "orientational seeds". The complete orientation of the polymer film takes place applying a secondary thermal step which aligns the mesogenic groups near to these "orientational seeds". In this way highly anisotropic films are generated. This method was called two-step-bulk-orientation process. <br><br> The photoreaction of different light-sensitive groups, such as azobenzene, stilbene, cinnamic ester and their ability to orient liquid crystalline polymers were investigated in this thesis. The orientation process was optimised using suitable irradiation conditions. The efficiency of the orientation was analysed measuring the angular dependent absorbance and the birefringence of the material due to the ordering procedure. It was shown, that a light-induced orientation is practicable in a high amount of different liquid crystalline polymers. So, for the first time it was found, that the generation of a high optical anisotropy is achieved as result of the rearrangement of the Photo-Fries-Reaction. Moreover, a new light-sensitive group based on donor-acceptor substituted ethylene was developed, which is colourless and allow the orientation and reorientation using polarised UV light. <br><br> Moreover, polymers were developed, which contain fluorescent groups in addition to the photo-sensitive and mesogenic units. The selection of suitable fluorophores was carried out with respect to their anisometric shape, their order parameter in a low molecular liquid crystalline mixture and their photostability. The orientational behaviour of selected fluorophores in six terpolymers and in two copolymers were investigated. The principle of the ordering is based on the cooperative orientation of the side groups. In this way the verification of the cooperativity of the process plays an important role in this work. <br><br> It was shown, that films can be fabricated by means of the light-induced bulk-orientation, which is characterised by an angular selective fluorescence and absorption in the UV or visible region. The fluorescence was completely quenched by some light-sensitive groups. In this way the anisotropic films became optional coloured, fluorescent or colourless and can be patterned in small anisotropic pixels of some micrometers. So, the developed multifunctional materials and the ordering method open new possibilities for the generation of different types of optical films in LCDs. multifunktionale Polymere Anisotropie Chemistry and allied sciences
562	Synthesis, Structure And Redox Catalytic Properties Of Pt And Pd Ion Substituted Ce1-xMxO2(M= Ti, Zr & Hf) Oxygen Storage Capacity Nano-materials Baidya, Tinku 11 1900 (has links) Three-way catalysis (TWC) involves simultaneous removal of the three pollutants (i.e., CO, NOx, and HCs) which led to the branch of auto-exhaust catalysis. CeO2 has become the main component of TWC catalyst because of its oxygen storage storage (OSC) property to supply oxygen under excess fuel condition and store oxygen under lean condition. Substitution of smaller isovalent cations like Ti4+, Zr4+ and Hf4+ ions in CeO2 forming Ce1-xMxO2 (M = Ti, Zr &Hf) solid solution enhance the OSC property. XRD along with EXAFS study showed that cations arrange in FCC lattice but oxygen coordination around metal ions is split into 4 + 4 coordination in Ce1-xMxO2 instead of ideal 8 coordination in CeO2. The longer Ce/Ti/Zr – O bonds are weakly bound and can be easily removed by H2 giving high OSC value than pure CeO2. Among the three OSC systems studied here, Ce0.5Zr0.5O2 showed exceptionally high OSC which lead to formation of a new a pyrochlore, Ce2Zr2O6.3. This compound is nearly metallic. Ce0.85-xTi0.15PtxO2- (x = 0.01 & 0.02) crystallizes in fluorite structure and Pt is ionically substituted with 2+ and 4+ oxidation states. H/Pt atomic ratio at 30 oC over Ce0.84Ti0.15Pt0.01O2- is 5 and over Ce0.99Pt0.01O2-δ is 4 against just 0.078 for 8 nm Pt metal particles. Carbon monoxide and hydrocarbon oxidation activity are much higher over Ce1-x-yTixPtyO2 (x= 0.15, y= 0.01, 0.02) compared to Ce1-xPtxO2 (x= 0.01, 0.02). Synergistic involvement of Pt2+/Pt0 and Ti4+/Ti3+ redox couples in addition to Ce4+/Ce3+ due to the overlap of Pt(5d), Ti(3d), and Ce(4f) bands near EF is shown to be responsible for enhanced redox property and higher catalytic activity. On substitution of Pd ion in Ce1-xTixO2, more lattice oxygen is found to be more labile than Pd in CeO2. The easy removal of oxygen from the more reducible Ti4+ containing support plays a major role in showing higher catalytic activity of this material for CO oxidation, N2O and NO reduction by CO. The catalyst shows 100% N2 selectivity  240 oC in NO+CO reaction. It has been shown that oxide ion vacancy creation created by removal of lattice oxygen by CO is responsible for dissociation of NO or N2O at a lower temperature. Ionicity of Pd2+ ion in different support could be varied by varying the ionicity of the oxide support itself. Rates of CO oxidation increases or activation energy decreases over Ce1-xPdxO2-δ, Ti1-xPdxO2-δ and Ce1-x-yMxPdyO2-δ (M = Ti, Zr, Hf ; x = 0.25, 0.4 ; y = 0.02) is increased with ionicity of Pd2+ ion. The substitution of Sn in CeO2 forming Ce1-xSnxO2 (x = 0.1-0.5) solid solution was prepared using tin oxalate precursor by solution combustion method. These oxides can be promising support for noble metals because of the Sn4+  Sn2+ redox couple in addition to Ce3+/Ce4+. The two electron process involved in the redox reaction of Sn as well as easy reducibility of Sn4+ to Sn2+ offers a far better redox catalytic system hitherto not reported. Ce1-xSnxO2 solid solutions as well as Pd ion substituted Ce1-xSnxO2 was prepared for the first time. Calcium Titanate Redox Reactions Oxygen Storage Capacity (OSC) Cerium Oxides - Synthesis Cerium Oxides - Redox Properties Ionic Substitution Nano-Crystalline Redox Catalysts Ce1-xMxO2(M= Ti, Zr & Hf) Pd2+ Ion Nanotechnology
563	Transport Properties and Durability of LCP and FRP materials for process equipment Römhild, Stefanie January 2010 (has links) This thesis focuses on transport properties and durability of liquid crystalline polymers (LCP)and fibre reinforced plastics (FRP) with regard to application in industrial process equipment.In the first part of the study the possibility of using a thermotropic LCP of type Vectra A950as lining material for FRP process equipment was investigated. Its performance wascompared to that of a fluorinated ethylene propylene copolymer (FEP) with respect tochemical and permeation resistance. Transport property and chemical resistance data wereestablished for different types of LCP film (compression molded, uniaxially and biaxiallyoriented film) exposed to selected chemicals chosen to represent typical industrial processenvironments. Annealing of the LCP, which may reduce the disclination density and henceimprove the barrier properties, induced a crystallinity increase, but did not significantlyimprove the barrier and chemical resistance properties. Different surface treatments toincrease the bonding between the LCP and FRP were explored. The conclusion was that LCPhas potential to serve as lining material for FRP in contact with water, organic solvents andnon-oxidizing acid environments, although certain issues, such as jointing techniques, stillhave to be evaluated. The second part of the study focused on transport and long-termproperties of commercial thermoset and FRP materials for industrial process equipment inaqueous environments (50 – 95 °C, water activity 0.78 – 1, exposure time ≤ 1000 days). Thewater transport properties in different thermosets were related to their chemical structureusing the solubility parameter concept. The transport of water in the thermosets with differentchemical structures could be predicted from the water activity, regardless of the actual type ofionic or non-ionic solute in the solution. An empirical relationship, independent of boththermoset chemistry and temperature, was established to describe the water concentration inthe thermoset as a function of water activity and the water concentration in pure water. Inlong-term, the water concentration in the thermosets increased with exposure time. Thisseemed to be primarily related to stress relaxation processes induced by water absorption andcertain leaching effects. The effects of hydrolysis seemed to be small. The glass fibrereinforcement may to various extents affect the water transport properties by capillarydiffusion and additional absorption around fibre bundles. The extent of such processesseemed to depend on temperature, water activity and the type of thermoset and reinforcement.The present work may be a useful contribution to an increased understanding of water effectsand durability of FRP process equipment. However, open questions still remain for a morecomprehensive durability analysis. / QC20100629 Liquid crystalline polymer (LCP) Vectra A950 disclination annealing transport properties diffusion lining bonding glass fibre reinforced plastics (FRP) thermoset vinyl ester novolac water water activity sorption isotherm long-term properties FEP
564	Entwicklung multi-stimuli sensitiver Materialien auf der Basis von flüssigkristallinen Elastomeren / Development of multi-stimuli sensitive materials based on liquid-crystalline elastomers Melchert, Christian January 2012 (has links) Aufgrund der zunehmenden technischen Ansprüche der Gesellschaft sind sich aktiv bewegende Polymere in den Mittelpunkt aktueller Forschung gerückt. Diese spielen bei Anwen-dungen im Bereich von künstlichen Muskeln und Implantaten für die minimal invasive Chirurgie eine wichtige Rolle. Vor allem Formänderungs- und Formgedächtnispolymere stehen dabei im wissenschaftlichen Fokus. Während die kontaktlose Deformation einer permanenten Form in eine temporäre metastabile Form, charakteristisch für Formände-rungspolymere ist, kann bei Formgedächtnis-Materialien die temporäre Form, aufgrund der Ausbildung reversibler, temporärer Netzpunkte, fixiert werden. Ein Polymermaterial, das eine Kombination beider Funktionen aufweist würde zu einem Material führen welches kontaktlos in eine temporäre Form deformiert und in dieser fixiert werden kann. Zusätzlich würde aufgrund der kontaktlosen Deformation die Reversibilität dieser Funktion gewähr-leistet sein. Ein solches Material ist bislang noch nicht beschrieben worden. In dieser Arbeit wird untersucht, ob durch die Kopplung zweier separat schaltbarer, be-kannter Funktionen eine neue schaltbare Funktion erzielt werden kann. Daher wurden multi-stimuli sensitive Materialien entwickelt die eine Kopplung des Formänderungs- und des Formgedächtniseffektes aufweisen. Dazu wurden zwei Konzepte entwickelt, die sich hinsichtlich der Reihenfolge der verwendeten Stimuli unterscheiden. Im ersten Konzept wurden flüssigkristalline Elastomere basie-rend auf Azobenzenderivaten aufgebaut und hinsichtlich der Kombination des licht-induzierten Formänderungseffektes mit dem thermisch-induzierten Formgedächtniseffekt untersucht. Diese orientierten Netzwerke weisen oberhalb der Glasübergangstemperatur (Tg) eine kontaktlose Verformung (Biegung) durch Bestrahlung mit UV-Licht des geeigneten Wellenlängenbereichs auf, wodurch eine temporäre Form erhalten wurde. Hierbei spielt der Vernetzungsgrad eine entscheidende Rolle bezüglich der Ausprägung dieser Biegung. Eine fixierte, temporäre Form konnte durch gleichzeitiges Abkühlen des Materials unterhalb von Tg während der Bestrahlung mit UV-Licht erhalten werden. Nach erneutem Aufheizen über Tg konnte die Originalform wiederhergestellt werden. Dieser Vorgang konnte reversibel durchgeführt werden. Damit wurde gezeigt, dass eine neue schaltbare Funktion erzielt wurde, die auf der Kopplung des lichtinduzierten Formänderungs- mit dem thermisch-induzierten Formgedächtniseffekt basiert. Die Abstimmung der einzelnen Funktion wird in diesem Konzept über die Morphologie des Systems gewährleistet. Diese neue Funktion ermöglicht eine kontaktlose Deformation des Materials in eine temporäre Form, welche fixiert werden kann. Im zweiten Konzept wurde eine Kopplung des thermisch induzierten Formänderungs- mit dem licht-induzierten Formgedächtniseffekt angestrebt. Um dies zu realisieren wurden nematisch, flüssigkristalline Hauptkettenelastomere (NMC-LCE) entwickelt, die eine nied-rige Übergangstemperatur der nematischen in die isotrope Phase (TNI), als auch einen aus-geprägten thermisch induzierten Formänderungseffekt aufweisen. Zusätzlich wurde eine photosensitive Schicht aufgebaut, die Cinnamylidenessigsäuregruppen in der Seitenkette eines Polysiloxanrückgrates aufweist. Die Reversibilität der photoinduzierten [2+2]-Cycloaddition konnte für dieses photosensitive Polymer beobachtet werden, wodurch die-ses Polymersystem in der Lage ist reversible temporäre Netzpunkte, aufgrund der Bestrah-lung mit UV-Licht, auszubilden. Die kovalente Anbindung der photosensitiven Schicht an die Oberfläche des flüssigkristallinen Kerns wurde erfolgreich durchgeführt, wodurch ein Multi-Komponenten-System aufgebaut wurde. Die Kombination des thermisch-induzierten Formänderungs- mit dem licht-induzierten Formgedächtniseffektes wurde anhand dieses Systems untersucht. Während die Einzelkomponenten die erforderliche Funktion zeigten, ist hier noch Arbeit in der Abstimmung beider Strukturen zu leisten. Insbesondere die Variation der Schichtdicken beider Komponenten steht im Fokus zukünftiger Arbeiten. In dieser Arbeit wurde durch die Kopplung von zwei separat schaltbaren, bekannten Funktionen eine neue schaltbare Funktion erzielt. Dies setzt voraus, dass die Einzelkomponenten hinsichtlich einer Funktion schaltbar sind und in einem Material integriert werden können. Des Weiteren müssen die beiden Funktionen mit unterschiedlichen Stimuli geschaltet werden. Ein wichtiger Schritt bei der Kopplung der Funktionen, ist die Abstimmung der beiden Komponenten. Dies kann über die Variation der Morphologie oder der Struktur erzielt werden. Anhand der Vielzahl der vorhandenen stimuli-sensitiven Materialien sind verschiedene Kopplungsmöglichkeiten vorhanden. Demnach wird erwartet, dass auf diesem Gebiet weitere neue Funktionen erzielt werden können. / Actively moving polymers are high scientific significance due to their ability to move actively in response to an external stimulus. Most notably shape-change and shape-memory polymers are in the focus of current research. Shape-changing polymers exhibit a non-contact deformation from a permanent into a temporary shape, which is just stable as long the material is exposed to an external stimulus. In contrast shape-memory polymers are capable of a fixed temporary shape due to the formation of additional temporary netpoints, while the deformation is proceed by applying mechanical stress. A polymeric material, which combines both functions would result into a material that possesses the advantages of the shape-change, as well as the shape-memory effect. In this work, the coupling of two known functions is investigated which results into a new switchable function. Therefore, two different concepts were developed requiring different material structures. For the first concept monodomain, smectic liquid-crystalline elastomers (LCE) containing azobenzene moieties were prepared and the coupling of the light-induced shape-change with the thermally-induced shape-memory effect was investigated. These oriented LCE's exhibit a non-contact deformation into a temporary shape, above the glass transition temperature (Tg), due to the irradiation with UV-light. The temporary shape could be fixed by cooling the material below Tg, while the irradiation with light was kept constant. The permanent shape could be recovered by additional heating above Tg. This process could be repeated several times. Therefore, a new switchable function was developed, which based on the coupling of the light-induced shape-change with the thermally induced shape-memory effect. The second concept required a multi-component system and the coupling of the thermally-induced shape-memory withe the light-induced shape-change effect was investigated. The multi component system consists of a LCE-core and a photosensitive layer. Nematic, main-chain elastomers were prepared, which possess of low transition temperatures and high actuation performances. The photosensitive layer consists of cinnamylidene acetic moieties, that were attached to a siloxane backbone, while the photoreversibility of the light-induced [2+2]-cycloaddition was shown. Furthermore, the photosensitive layer was covalently attached to the surface of the LCE-core. While both components showed their functionality, the coupling of the thermally-induced shape-change with the light-induced shape-memory effect was not successful up to now. The Adjustment of both components on each other has to be improved. Mainly the variation of the layer thickness of both structural components should be in the focus of future work. multi-stimuli sensitive Materialien aktive Polymere Formgedächtnispolymere [2+2]-Cycloaddition flüssigkristalline Netzwerke multi-stimuli sensitiv materials active polymers shape-memory polymers [2+2]-cycloaddition liquid-crystalline elastomers Chemistry and allied sciences
565	Ionic Conductivity in Non-Ionic Compounds Avala, Usha Kranthi 01 August 2013 (has links) The main objective of this work is to investigate the ionic conductivity of the drugs under certain conditions and also to compare the ionic conductivities of drugs determined by single surface sensors and parallel plate sensors. The ionic conductivity of various materials at their pre-melt and melt states are studied in order to further study a recently discovered phenomenon. Polar solids like Lidocaine, Ketoconazole, Procainamide and Nifedipine were examined in this study. Experimental studies show an increase in ionic conductivity in both pre-melt (20 -30 °C below melting temperature) and melt transition regions. Results of ionic conductivity of both parallel plate and single surface sensor at different frequencies are compared. At 1000 Hz, all the samples show an increase in ionic conductivity with both parallel plate and single surface sensor, but at 0.1 Hz frequency, no increase in ionic conductivity is observed with parallel plate sensor except for Nifedipine. Dielectric Analyzer Differential Scanning Calorimetry Ceramic Single Surface Sensor Gold Plated Parallel Plate Sensor Amorphous and Crystalline Forms of Drug Solid State Chemistry Chemicals and Drugs Chemistry Inorganic Chemistry Medicinal-Pharmaceutical Chemistry
566	Propagation des plasmons de surface dans des nanofils métalliques Song, Mingxia 13 November 2012 (has links) (PDF) Plasmonic circuitry is considered as a promising solution-effectivetechnology for miniaturizing and integrating the next generation ofoptical nano-devices. The realization of a practical plasmonic circuitry strongly depends on the complete understanding of the propagation properties of two key elements: surface plasmons and electrons. The critical part constituting the plasmonic circuitry is a waveguide which can sustain the two information-carriers simultaneously. Therefore, we present in this thesis the investigations on the propagation of surface plasmons and the co-propagation of surface plasmons and electrons in single crystalline metal nanowires. This thesis is therefore divided into two parts. In the first part, we investigate surface plasmons propagating in individual thick penta-twinned crystalline silver nanowires using dual-plane leakage radiation microscopy. The effective index and the losses of the mode are determined by measuring the wave vector content of the light emitted in the substrate. Surface plasmon mode is determined by numerical simulations and an analogy is drawn with molecular orbitals compound with similar symmetry. Leaky and bound modes selected by polarization inhomogeneity are demonstrated. We further investigate the effect of wire geometry (length, diameter) on the effective index and propagation losses. On the basis of the results obtained during the first part, we further investigate the effect of an electron flow on surface plasmon properties. We investigate to what extend surface plasmons and current-carrying electrons interfere in such a shared circuitry. By synchronously recording surface plasmons and electrical output characteristics of single crystalline silver and gold nanowires, we determine the limiting factors hindering the co-propagation of electrical current and surface plasmons in these nanoscale circuits. Analysis of wave vector distributions in Fourier images indicates that the effect of current flow on surface plasmons propagation is reflected by the morphological change during the electromigration process. We further investigate the possible crosstalk between co-propagating electrons and surface plasmons by applying alternating current bias [SPI:OTHER] Engineering Sciences/Other Plasmonic circuitry Surface plasmon Pentagonal single crystalline nanowire Effective index Propagation length Wave vector Leaky radiation microscopy Contacted nanowire Co-propagation Electrical failure Bias modulation SEM contamination
567	Noble Metal And Base Metal Ion Substituted Ceo2 And Tio2 : Efficient Catalysts For Nox Abatement Roy, Sounak 12 1900 (has links) In recent times, as regulations and legislations for exhaust treatment have become more stringent, a major concern in the arena of environmental catalysis is to find new efficient and economical exhaust treatment catalysts. Chapter 1 is a review of the current status of various NOx abatement techniques and understanding the role of “auto-exhaust catalysts” involved therein. Chapter 2 presents the studies on synthesis of ionically substituted precious metal ions like Pd2+, Pt2+ and Rh3+ in CeO2 matrix and their comparative three-way catalytic performances for NO reduction by CO, as well as CO and hydrocarbon oxidation. Ce0.98Pd0.02O2- showed better catalytic activity than ionically dispersed Pt or Rh in CeO2. The study in Chapter 3 aims at synthesizing 1 atom% Pd2+ ion in TiO2 in the form of Ti0.99Pd0.01O2- with oxide ion vacancy. A bi-functional reaction mechanism for CO oxidation by O2 and NO reduction by CO was proposed. For NO reduction in presence of CO, the model based on competitive adsorption of NO and CO on Pd2+, NO chemisorption and dissociation on oxide ion vacancy fits the experimental data. The rate parameters obtained from the model indicates that the reactions are much faster over this catalyst compared to other catalysts reported in the literature. In Chapter 4 we present catalytic reduction of NO by H2 over precious metal substituted TiO2 (Ti0.99M0.01O2-, where M = Ru, Rh, Pd, Pt) catalysts. The rate of NO reduction by H2 depends on the reducibility of the catalysts. Chapter 5 presents the studies on reduction of NO by NH3 in presence of excess oxygen. 10 atom % of first row transition metal ions (Ti0.9M0.1O2-, where M = Cr, Mn, Fe, Co and Cu) were substituted in anatase TiO2 and TPD study showed that the Lewis and Bronsted acid sites are adsorption sites for NH3, whereas NO is found to dissociatively chemisorbed in oxide ion vacancies. The mechanism of the low temperature catalytic activity of the SCR and the selectivity of the products were studied to understand the mechanism by studying the by-reactions like ammonia oxidation by oxygen. A new catalyst Ti0.9Mn0.05Fe0.05O2- has shown low temperature activity with a broad SCR window from 200 to 400 °C and more selectivity than commercial vanadium-oxides catalysts. We attempted NO dissociation by a photochemical route with remarkable success. In Chapter 6 we report room temperature photocatalytic activity of Ti0.99Pd0.01O2- for NO reduction and CO oxidation by creating redox adsorption sites and utilizing oxide ion vacancy in the catalyst. The reduction of NO is carried out both in the presence and in the absence of CO. Despite competitive adsorption of NO and CO on the Pd2+ sites, the rate of reduction of NO is two orders of magnitude higher than unsubstituted TiO2. High rates of photo-oxidation of CO with O2 over Ti0.99Pd0.01O2- were observed at room temperature. In Chapter 7 the results are summarized and critical issues are addressed. Novel idea in this thesis was to see if both noble metal ions and base metal ions substituted in TiO2 and CeO2 reducible supports can act as better active sites than the corresponding metal atoms in their zero valent state. Catalysts Catalysis Celium Oxide Titanium Oxide Environmental Catalysis Catalysts - Synthesis Nitrogen Oxides - Catalytic Reduction Nano-Crystalline Ionic Catalysts NO Reduction N2O Reduction NOx Abatement CO deNOx Noble Metal Physical Chemistry
568	Untersuchungen zum Reaktionsverhalten kristalliner Siliziumoberflächen in HF-basierten Ätzlösungen Patzig-Klein, Sebastian 16 February 2010 (has links) (PDF) Die vorliegende Arbeit befasst sich mit der grundlegenden Untersuchung von Reaktionsmustern kristalliner Si-Oberflächen in HF-basierten Lösungen. Ausgehend von den industriell genutzten HF-HNO3-H2O-Gemischen wurden wisher wenig untersuchte HF/HNO3-Konzentrationsverhältnisse, die durch gelöste Stickoxide bedingten Folgereaktionen sowie der PH-Wert als Steuerparameter zur Aufarbeitung feinkörniger Si-Rohstoffe (Korngröße ≤ 0,5 mm) identifiziert. Die in diesem Kontext zentrale Rolle der NO+-Ionen wurde durch Untersuchung der spezifischen Reaktionsmuster an kristallinen as-cut und hydrophobierten Si-Oberflächen sowie bei Umsetzungen mit Oligosilanen als Modellverbindungen bestätigt. Die aus den umfassenden analytischen Daten (FT-IR-, Raman-, NMR-Spektroskopie, IC, REM-EDX, AFM) gewonnenen Erkenntnisse liefern einen wichtigen Beitrag zum Verständnis nasschemischer Halbleiterätzprozesse und erschließen neue Anwendungsfelder. Kristallines Silicium Nasschemische Halbleiterätzverfahren Nitrosylionen Elektrochemisches Abtragen Flusssäure Salpetersäure Nitrosylkation crystalline silicon nitrosonium ions electrochemical etching hydrofluoric acid nitric acid ddc:540 rvk:VH 8021 rvk:ZM 7660 rvk:VE 7000
569	Synthesis and Properties of Branched Semi-Crystalline Thermoset Resins Claesson, Hans January 2003 (has links) <p>This thesis describes the synthesis and characterization ofbranched semi-crystalline polymers. Included in this work isthe SEC characterization of a series of dendrimers. Thebranched semi-crystalline polymers were synthesized in order toinvestigate the concept of their use as powder coatings resins.This concept being that the use of branched semi-crystallinepolymers in a UV-cured powder coating system may offer a lowertemperature alternative thus allowing the use of heat sensitivesubstrates and the added benefit of a reduced viscositycompared to linear polymers.</p><p>A series of branched poly(ε-caprolactone)s (PCL)(degree of polymerization: 5-200) initiated from hydroxylfunctional initiators were synthesized. The final architectureswere controlled by the choice of initiator structure;specifically the dendritic initiators yielded starbranchedPCLs while the linear initiator yielded comb-branchedPCLs. The dendritic initiators utilized were: (1) a3rd-generation Boltorn H-30, commercially availablehyperbranched polyester with approximately 32 hydroxyl groups,(2) a 3rd-generation dendrimer with 24 hydroxyl groups, and (3)a 3rd-generation dendron with 8 hydroxyl groups. Linear PCL wassynthesized for comparison. All dendritic initiators are basedon 2,2- bis(methylol) propionic acid. The comb-branchedpolymers were initiated from a modified peroxide functionalpolyacrylate. The resins were end-capped withmethylmethacrylate in order to produce a cross-linkable system.The polymers and films were characterized using 1H NMR, 13CNMR, SEC, DMTA, DSC, FT-IR, FT-Raman, rheometry and a rheometercoupled to a UV-lamp to measure cure behavior.</p><p>The star-branched PCLs exhibited considerably lowerviscosities than their linear counterparts with the samemolecular weight for the molecular region investigated (2-550kg mol-1). It was also found that the zero shear viscosityincreased roughly exponentially with M.</p><p>The PCL star-branched resins are semi-crystalline and theirmelting points (Tm) range from 34-50°C; films can beformed and cured below 80°C. The viscoelastic behaviourduring the cure showed that the time to reach the gel point, afew seconds, increased linearly with molecular weight. Thecrossover of Gand Gwas used as the gelpoint. Measurement of mechanical properties of films showedthat the low molecular weight polymers were amorphous whilethose with high molecular weight were crystalline after cure.The polymerization of 5,5-dimethyl-1,3-dioxane-2-one (NPC) fromoligo- and multifunctional initiators was evaluated utilizingcoordination and cationic polymerization. Two tin basedcatalysts, stannous(II) 2-ethylhexanoate and stannous(II)trifluoromethane sulfonate, were compared with fumaric acid.Fumaric acid under bulk conditions resulted in lowerpolydispersity and less chance of gelling. The synthesis ofstar-branched polymers was confirmed by SEC data. The starpolymers exhibited a Tg at 20-30°C and a Tm at about100°C.</p><p>All semi-crystalline resins exhibited a fast decrease inviscosity at Tm. Blends of combbranched semi-crystalline resinsand amorphous resins exhibited a transition behavior inbetweenthat of pure semi-crystalline resins and that of amorphousresins.</p><p>The SEC characterization of a series of dendrimers withdifferent cores and terminal groups showed that the core had animpact on the viscosimetric radius of the core while theterminal groups appeared to have no effect.</p><p><b>Keywords:</b>star-branched, semi-crystalline,comb-branched, ring-opening polymerization,poly(ε-caprolactone), dendritic, thermoset, lowtemperature curing, powder coating, UVcuring,poly(5,5-dimethyl-1,3-dioxane-2-one), size exclusionchromatography, rheology, dendritic aliphatic polyester</p> star-branched semi-crystalline comb-branched ring-opening polymerization poly(ƒÕ-caprolactone) dendritic thermoset low temperature curing powder coating UV-curing poly(5 5-dimethyl-1 3-dioxane-2-one) size exclusion chromatography rheology
570	Korrelationen zwischen struktureller Ordnung und elektrischen Transporteigenschaften in CoFeB\|MgO\|CoFeB Tunnelmagnetowiderstandselementen / Correlations between structural order and electric transport properties in CoFeB\|MgO\|CoFeB magnetic tunnel junctions Eilers, Gerrit 15 January 2010 (has links) No description available. 530 Physik Mathematics and Computer Science Tunnelmagnetowiderstand CoFeB MgO Grenzfläche amorph kristallin Transmissionselektronenmikroskopie tunnel magnetoresistance CoFeB MgO interface amorphous crystalline transmission electron microscopy 33.68 33.75

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