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181	Characterization of Self-Assembled Monolayers of Oligo(phenyleneethynylene) Derivatives on Gold Watcharinyanon, Somsakul January 2007 (has links) Oligo(phenyleneethynylene) (OPE) molecules are a class of fully conjugated aromatic molecules, that attract attention for their application as “molecular wires” in molecular electronic devices. In this thesis work, self-assembled monolayers (SAMs) formed from a variety of OPE derivatives have been studied. The chemical properties, structure, and packing density of the SAMs have been characterized utilizing techniques such as high-resolution X-ray photoemission spectroscopy (HRXPS), near-edge X-ray absorption fine structure spectroscopy (NEXAFS), Infrared reflection absorption spectroscopy (IRRAS), contact angle measurements, and atomic force microscopy (AFM). In a first study, three OPE-derivatives, with benzene, naphthalene and anthracene, respectively, inserted into the backbone, and an acetyl-protected thiophenol binding group were found to form SAMs on Au(111) substrates with lower molecular surface densities and larger molecular inclination as the lateral π-system increases. In a second study, porphyrin was introduced as the end group to a wire-like molecule such as OPE. The purpose was to obtain well-organized and functionalized surfaces with optical and redox properties. Three porphyrin-functionalized OPEs had different binding groups, an acetyl-protected thiophenol, a benzylic thiol, and a trimethylsilylethynylene group, and were found to form SAMs on gold surfaces with difference in structure and degree of order. The molecules with the acetyl-protected thiophenol binding group were found to form a high quality SAM compared to the other two. This SAM exhibits a well-ordered and densely packed layer. This study gives rise to a better understanding of SAM formation of OPE derivatives, and will form a base for further investigations of charge transport properties of these molecular films, which is of interest for applications in molecular electronic devices. Self-assembled monolayers Oligo(phenyleneethynylene) Material physics with surface physics Materialfysik med ytfysik
182	Angle-Dependent Electron Spectroscopy Studies of C60 Compounds and Carbon Nanotubes Schiessling, Joachim January 2003 (has links) Fullerenes have been shown to constitute a prototypical building block for truly nanometer-sized devices and exotic nanounit-based materials, e.g., high-temperature superconductors. This makes the detailed understanding of fullerene electronic states in compounds and at interfaces of primary importance, since the high symmetry of the molecule greatly simplifies the starting point of the analysis. Carbon nanotubes, which combine one macroscopic with two nanoscopic dimensions, are perhaps of even greater practical interest. Angle-dependent electron spectroscopies have been employed in the present work to study these materials, characterizing their structure, bonding, and electronic states. For solid C60, the photoelectron angular distribution has been found to be essentially that of the free molecule, modified by solid state scattering; a similar distribution is found for K3C60. The surface and bulk electronic structure of K3C60 has been identified by angle-dependent core and valence photoelectron spectroscopy (PES) and x-ray emission spectroscopy. An insulating surface layer has been identified for this high-temperature superconductor. Angle-dependent valence PES is used to investigate the electronic states of C60/Al(110). Electron correlations are found to be the origin of the splitting observed in the molecular orbitals, which is quite sensitive to the molecular orientation. The components of the highest occupied molecular orbital are differentiated according to their overlap with the substrate. A rigid shift of valence- and core-levels has been observed even for ionic and covalent C60 compounds, reflecting the efficient static polarizability screening of the molecule. The alignment of multi-walled carbon nanotubes has been investigated by x-ray absorption spectroscopy, using the spectral intensity ratio of π- and -resonances. Core level combined with valence PES shows that the degree of defect structure varies from position to position on the sample. Valence photoelectron spectra of defect-free sample spots closely resembles the total DOS of graphite. Physics fullerenes C60 K3C60 multi-walled carbon nanotubes molecules clusters electron spectroscopy synchrotron radiation x-ray absorption x-ray emission molecular orbitals charge transfer electron correlation surface physics Fysik Physics Fysik
183	Synthesis and characterization of refractory oxides doped with transition metal ions Cho, Suyeon 01 September 2011 (has links) (PDF) In this study, the oxygen-deficient TiO2, SrTiO3 systems and transition metal ion (Cr or V) doped TiO2, SrTiO3 and SrZrO3 systems have been investigated. We prepared samples as polycrystals, single crystals and thin films for various desires. Their structural, physical and electronic properties were measured by bulk-sensitive techniques (X-Ray Diffraction, SQUID and Electro Paramagnetic Resonance) or surface-sensitive techniques (Photoemission spectroscopy and X-ray absorption spectroscopy). The measurement of SQUID and EPR showed not only their magnetic properties but also the valence state of Cr dopant. We verified the valence state of Cr ions in oxides and found the key parameters of sample synthesis which control the valence state of Cr ions. Segregated phases such as SrCrO4 were formed when the samples were synthesized under O2 rich environment. The surface properties of Cr doped SrZrO3 films are also discussed. We found the synthesis conditions which influence on not only the behavior of Cr ions but also the resistive-switching behaviors. Various resistive-switching behaviors seem to depend on the surface chemistry of films. We found that the accumulation of Cr3+ on film surface provides a clean interface without any non-stoichiometric oxides and that this sharp interface termination results in a good performance of resistive-switching. [CHIM:OTHE] Chemical Sciences/Other Refractory oxide Titanium Zirconium Strontium TiO2 SrTiO3 Single crystal Thin film SQUID Electron paramagnetic resonance Photoemission X-ray absorption spectroscopy Diluted magnetic semiconductor Resistive-switching random access memory
184	Spectroscopic and Kinetic Investigation of the Catalytic Mechanism of Tyrosine Hydroxylase Eser, Bekir Engin 2009 December 1900 (has links) Tyrosine Hydroxylase (TyrH) is a pterin-dependent mononuclear non-heme iron oxygenase. TyrH catalyzes the hydroxylation reaction of tyrosine to dihydroxyphenylalanine (DOPA). This reaction is the first and the rate-limiting step in the biosynthesis of the catecholamine neurotransmitters. The active site iron in TyrH is coordinated by the common facial triad motif, 2-His-1-Glu. A combination of kinetic and spectroscopic techniques was applied in order to obtain insight into the catalytic mechanism of this physiologically important enzyme. Analysis of the TyrH reaction by rapid freeze-quench Mossbauer spectroscopy allowed the first direct characterization of an Fe(IV) intermediate in a mononuclear nonheme enzyme catalyzing aromatic hydroxylation. Further rapid kinetic studies established the kinetic competency of this intermediate to be the long-postulated hydroxylating species, Fe(IV)O. Spectroscopic investigations of wild-type (WT) and mutant TyrH complexes using magnetic circular dichroism (MCD) and X-ray absorption spectroscopy (XAS) showed that the active site iron is 6-coordinate in the resting form of the enzyme and that binding of either tyrosine or 6MPH4 alone does not change the coordination. However, when both tyrosine and 6MPH4 are bound, the active site becomes 5-coordinate, creating an open site for reaction with O2. Investigation of the kinetics of oxygen reactivity of TyrH complexes in the absence and presence of tyrosine and/or 6MPH4 indicated that there is a significant enhancement in reactivity in the 5-coordinate complex in comparison to the 6-coordinate form. Similar investigations with E332A TyrH showed that Glu332 residue plays a role in directing the protonation of the bridged complex that forms prior to the formation of Fe(IV)O. Rapid chemical quench analyses of DOPA formation showed a burst of product formation, suggesting a slow product release step. Steady-state viscosity experiments established a diffusional step as being significantly rate-limiting. Further studies with stopped-flow spectroscopy indicated that the rate of TyrH reaction is determined by a combination of a number of physical and chemical steps. Investigation of the NO complexes of TyrH by means of optical absorption, electron paramagnetic resonance (EPR) and electron spin echo envelope modulation (ESEEM) techniques revealed the relative positions of the substrate and cofactor with respect to NO, an O2 mimic, and provided further insight into how the active site is tuned for catalytic reactivity upon substrate and cofactor binding. Mononuclear nonheme Aromatic Amino Acid Hydroxylase Tyrosine Hydroxylase Catalytic Mechanism ferryl-oxo Mössbauer Spectroscopy Magnetic Circular Dichroism X-ray Absorption Spectroscopy EXAFS Stopped-Flow Kinetics Rapid Chemical Quench Viscosity Effects ESEEM EPR Nitric Oxide Complex
185	Untersuchung von Dünnschichtsystemen mittels Elektronenstrahl-Mikroanalyse / Characterization of Thin Layer Systems by Electron Probe Micro Analysis Gorfu, Paulos 18 March 2009 (has links) (PDF) Die Arbeit beschäftigt sich mit der Erweiterung der für dicke Proben schon mit Erfolg eingesetzten Werkstoffanalytischen Methode Elektronenstrahl-Mikroanalyse (ESMA) mittels Peak/Untergrund-Verhältnissen auf die Analyse von dünnen Schichten (unter 1 μm) zur qualitative und quantitativen Elementanalyse sowie zur Ermittlung von Schichtdicken. Weiterhin wird auf der Basis von einer ESMA-Methode für zwei dünne Schichten auf einem Substrat wird ein Modell zur Ermittlung des Phasenwachstumskoeffizienten für eine intermetallische Phase die sich bei der Diffusion zwischen einer dünnen Schicht und einem Substrat bildet, mittels ESMA-Messungen bei gleichzeitiger Erwärmung der Probe dargestellt. / The paper deals with the application of the materials analysis method EPMA by peak-to-background ratios, which is currently being used for the analysis of thick samples successfully, to thin layers (less than 1 μm) for the quantitative element analysis as well as for thickness prediction. In addition a model has been established on the Basis of an EPMA method for two films on a substrate for deriving the phase growth coefficient of an inter-metallic phase which grows during the diffusion between a thin layer and a substrate from EPMA measurements while simultaneously heating the sample. Elektronenstrahl-Mikroanalyse Dünnschicht Röntgenstrahlenabsorption Elektronenstreuung Substrateinfluβ Berechnungsverfahren Heiztischmikroskop Diffusion (Techn.) Phasenkoeffizient electron beam microanalysis thin film x-ray absorption electron backscattering substrate contribution quantitative method hot stage microscope Diffusion phase diffusion coefficient ddc:620 ddc:530 rvk:UH 6314
186	Strukturuntersuchungen zum Reaktionsmechanismus an der Alkylsulfatase AtsK aus Pseudomonas putida S-313 / Structural analysis on the reaction mechanism of the alkylsulfatase AtsK from Pseudomonas putida Müller, Ilka 06 November 2003 (has links) No description available. Mathematics and Computer Science Roentgenstruktur Roentgenabsorptionsspektroskopie Alkylsulfatase 500 Naturwissenschaften allgemein X-ray structure X-ray absorption spectroscopy Alkylsulfatase 35.25 35.70 SP 000: Strukturchemie
187	Atomic scale structural modifications in irradiated nuclear fuels Mieszczynski, Cyprian 11 April 2014 (has links) (PDF) This thesis work reports in depth analyses of measured µ-XRD and µ-XAS data from standard UO2, chromia (Cr2O3) doped UO2 and MOX fuels, and interpretation of the results considering the role of chromium as a dopant as well as several fission product elements. The lattice parameters of UO2 in fresh and irradiated samples and elastic strain energy densities in the irradiated UO2 samples have been measured and quantified. The µ-XRD patterns have further allowed the evaluation of the crystalline domain size and sub-grain formation at different locations of the irradiated fuel pellets. Attempts have been made to determine lattice parameter and next neighbor atomic environment in chromia-precipitates found in fresh chromia-doped fuel pellets. The local structure around Cr in as-fabricated chromia-doped UO2 matrix and the influence of irradiation on the state of chromium in irradiated fuel matrix have been addressed. Finally, for a comparative understanding of fission gases behavior and irradiation induced re-solution phenomenon in standard and chromia-doped UO2, the last part of the present work tries to clarify the fission gas Kr atomic environment in these irradiated fuels. The work performed on Kr, by micro-beam XAS, comprises the determination of Kr next neighbor distances, an estimation of gas atom densities in the aggregates, and apparent internal pressures in the gas bubbles. Mixed-oxide fuel Nuclear fuels Dopant chrome Uranium dioxide Lattice parameter Grain polygonization Synchrotron radiation Lattice strain XRD (X-Ray Diffraction)
188	Organic spintronics : an investigation on spin-crossover complexes from isolated molecules to the device Davesne, Vincent 19 November 2013 (has links) (PDF) We have studied by STM, SQUID, X-ray reflectivity, X-ray diffraction, optical absorption and XAS Fe(phen)2(NCS)2 and Fe{[3,5-dimethylpyrazolyl]3BH}2 samples deposited by thermal evaporation on Cu(100), Co(100) and SiO2 substrates, and compared with results on powder samples. We have confirmed the existence of the soft X-ray induced excited spin state trapping (SOXIESST), and investigated its properties, in particular dynamic aspects. The effect is sensitive to the intensity and the structure of the applied X-ray beam, and is non-resonant. We suggest that its efficiency is also governed by metal-ligand charge transfer states (MLCT). The study of single molecules has revealed that they could be switched by voltage pulses, and by this way building memristive devices, but only if the influence of the substrate is sufficiently reduced. We have then investigated thin films with the help from a simple thermodynamic model, and evidenced that the cooperativity was reduced and the transition temperature is modified (higher for Fe-phen, and lower for Fe-pyrz). Finally, we use these results to build multilayer vertical devices Au/Fe-phen/Au, and its electrical properties depends, according to our preliminary results, on the external stimuli (temperature, magnetic field). Notably, they present a "diode" effect at the spin transition. Organic spintronics Spin-crossover Fe(phen)2(NCS)2 X-ray absorption SOXIESST
189	Investigation of structural properties in biomolecular systems using synchrotron-based spectroscopies Kummer, Kurt 11 August 2010 (has links) (PDF) Solid state approaches to structural properties like diffraction or microscopy techniques often cannot be applied to biomolecular systems, at least not without special postpreparation which often corrupts the desired properties of the pristine systems. In this work the capabilities of synchrotron-based, soft X-ray spectroscopies as an alternative way to unravel structural properties of such systems are tested. To this end, three exemplary systems were investigated each with the focus on another facet and characteristic length scale. The first example are DNA-alkanethiol self-assembled monolayers, also known as DNA microarrays or DNA chips, for which a way to monitor and controllably tune the structural composition on the mesoscopic scale of many thousands of molecules was sought for. The second example focuses on the single-molecule and submolecular scale in metalprotein hybrid compounds with the aim to identify the binding site of metal atoms or ions within protein molecules and the underlying interaction mechanisms. The most fundamental structural scale, the level of single bonds and molecular orbitals, is addressed in the last example where it was tried to elaborate an approach to map the topology of molecular orbitals based upon X-ray absorption properties. This approach was put to the practical test for the characteristic pipeptide orbitals in protein backbones. For all three investigated examples, spectroscopies using soft X-ray synchrotron radiation were able to extract the desired information, thus confirming that they may grant alternative access to structural properties of soft-matter systems in cases where standard approaches fail. / Klassische Festkörpertechniken zur Strukturuntersuchung, wie Streu- oder Mikroskopiemethoden, können häufig nicht auf Biomolekülsysteme angewandt werden, zumindest nicht ohne spezielle Postpräparation, die die ursprünglichen Eigenschaften dieser Systeme oft verfälscht. In dieser Arbeit soll untersucht werden, inwieweit Röntgenspektroskopien basierend auf Synchrotronstrahlung einen alternativen Zugang zu Struktureigenschaften solcher Systeme bieten. Dazu wurden drei Systeme exemplarisch untersucht, jeweils mit Schwerpunkt auf einen anderen Aspekt und charakteristischen Längenbereich. Für selbstorganisierende DNA-Alkanthiol-Schichten, sogenannte DNA-Chips, wurde nach eine Weg gesucht, ihre strukturelle Zusammensetzung auf der mesoskopischen Ebene vieler tausend Moleküle zu bestimmen und kontrolliert zu modifizieren. Metallisierte Proteinstrukturen wurden auf Einzelmolekül- bzw. submolekularer Ebene untersucht, mit dem Ziel, die Orte der Metallanlagerung innerhalb des Proteins und die zugrundeliegenden Wechselwirkungsmechanismen zu identifizieren. Die unterste strukturelle Ebene, der Bereich einzelne Bindungen und Molekülorbitale, wurde adressiert am Beispiel der pipeptide Orbitale des Proteinrückrats. Dafür wurde eine Methode zur Kartographierung einzelner Orbitale anhand von Röntgenabsorptionseigentschaften herausgearbeitet und praktisch getestet. In allen drei Fällen konnten Röntgenspektroskopien die nötigen Informationen liefern und damit ihr Potential für Strukturuntersuchungen in weicher Materie unter Beweis stellen. biomolecules protein DNA structural properties synchrotron spectroscopy photoemission spectroscopy x-ray absorption spectroscopy Biomoleküle Protein DNA Struktureigenschaften Synchrotron Spektroskopie Photoemissionsspectroskopie Röntgenabsorptionsspectroskopie ddc:530 rvk:UP 9330 rvk:WD 5000 rvk:WD 5360
190	Local Structure-Property Relationship in Some Selected Solid State Materials Mukherjee, Soham January 2015 (has links) (PDF) The thesis entitled “Local structure-property relationship in some selected Solid State Materials” mainly focuses on two fundamental topics: (a) evaluation of some standard global structural concepts in terms of local structure to provide a unique description of the crystal structure, and (b) the role of the crystal structure at different length-scales in controlling the properties in some selected materials. Solid State Materials Crystal Structure X-ray Diffraction X-ray Absorption Fine Structure Vegard's Law Chemical Pressure Luminescent Nanocrystals Chemical Bonds Bond Angles Lattice Mismatch Materials Structure Hybrid Perovskite CuCdS Nanocrystals W–S–N Thin Films Solid State and Structural Chemistry

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