Global ETD Search

61	Krystalochemie slíd z Českého středohoří / Crystal chemistry of micas from České středohoří Goll, Jan January 2010 (has links) Micas from České středohoří mts. have been studied by X-ray difractometry, ICP-MS and electron microprobe. The measurements of trace elements and REEs revealed very low tendency by normalization of chondrite reservoir and primitive mantle. The micas classifications were determined by Tischendorf (2007) and Rieder (1998) as Fe- or Fe-Ti phlogopites. The abundances of Ti are very high up to 0,46 (a.p.f.u.). X-ray powder diffraction revealed double layered polytype 2M1 with space group C/2c.
62	Krystalochemie slíd z Českého středohoří / Crystal chemistry of micas from České středohoří Goll, Jan January 2011 (has links) Six methods have been used to study micas from České středohoří mts.: X-ray difractometry (transmission and reflection), ICP MS, electron microprobe, Mössbauer spectroscopy and termogravimetry. The measurements of trace elements and REE's revealed very low tendency by normalization on chondrite reservoir and primitive mantle. Micas show high contents of TiO2 (9,47 wt.%) and BaO (up to 2,1 wt.%) in separated grains from rock. The micas classifications were determined by Tischendorf (2007) and Rieder (1998) as Fe-phlogopites. X-ray powder diffraction revealed cell dimensions and a common polytype 1M with space group C2/m. By Mössbauer spectroscopy have been studied the rates of Fe2+ /Fe3+ and they were 1,08 - 1,86 (except rock sample, which were 9:1). Termogravimetrical measurement until 1450řC revealed weight jump from 1120řC to 1270řC.
63	In situ Untersuchungen der mechanochemischen Synthese von Cokristallen: Einfluss von Reaktionsparametern am Modellsystem Pyrazinamid Kulla, Hannes 25 July 2019 (has links) Die Mechanochemie findet zunehmend Verwendung für die Synthese neuer Verbindungen. Dennoch sind die beim Mahlen stattfindenden Prozesse weitestgehend unverstanden. Dahingehend wurde in dieser Arbeit eine Dreifachkopplung aus in situ Synchrotron-Röntgenbeugung, Raman-Spektroskopie und Thermographie entwickelt, um mechanochemische Reaktionen unter realistischen Bedingungen in Echtzeit zu verfolgen. Dadurch konnten tiefgreifende Einblicke in den Reaktionsverlauf und Temperaturverlauf beim Mahlen erhalten und neue metastabile Verbindungen isoliert werden. Für die Bildung pharmazeutischer Cokristalle diente Pyrazinamid als Modellsystem. Es konnten neue binäre und ternäre Verbindungen synthetisiert, detailliert charakterisiert und deren Kristallstruktur aufgeklärt werden. Die Abhängigkeit der Stabilität polymorpher Cokristalle von der Temperatur und den Synthesebedingungen konnte gezeigt werden. In Konkurrenzreaktionen konnten Trends hinsichtlich der bevorzugten Bildung eine bestimmten Cokristalls beobachtet werden. Mittels in situ Untersuchungen wurde der Einfluss zentraler Reaktionsparameter, wie die Mahlfrequenz, der Kugeldurchmesser, der eingesetzte Ausgangsstoff und die Zugabe von Lösungsmittel, auf die Induktions- und Reaktionszeit der Reaktion ermittelt. Basierend auf den gewonnenen Erkenntnissen konnte ein Diffusionsmechanismus für die mechanochemische Cokristallbildung abgeleitet werden. / Mechanochemistry is increasingly applied for the synthesis of new compounds. Still, the processes taking place during milling are far from being understood. In this thesis, a triple coupling of in situ synchrotron X-ray diffraction, Raman spectroscopy and thermography has been developed to follow mechanochemical reactions under realistic conditions in real time. This allowed deep insights into the reaction and temperature progression during milling and the isolation of new metastable compounds. For the formation of pharmaceutical cocrystals pyrazinamide served as a model system. New binary and ternary compounds were synthesized, characterized in detail and their crystal structure solved. The dependence of the stability of polymorphic cocrystals on temperature and synthesis conditions could be shown. In competitive reactions, trends regarding the preferred formation of a certain cocrystal have been observed. The influence of important reaction parameters, such as the milling frequency, the ball diameter, the starting material used and the addition of solvent, on the induction and reaction time of the reaction was determined by means of in situ investigations. Based on the gained knowledge, a diffusion mechanism for the mechanochemical cocrystal formation could be derived. Mechanochemie in situ Cokristalle Pulverdiffraktometrie Pyrazinamid mechanochemistry in situ cocrystals powder diffraction pyrazinamide 541 Physikalische Chemie VE 9807 VG 9907 VE 9357 ddc:541
64	Vibronové stavy v cérových krystalických sloučeninách / Vibron states in cerium crystalline compounds Doležal, Petr January 2021 (has links) This thesis is focused on study of the vibron state in Ce intermetallics. The presence of a vibron state is a consequence of an enhanced magneto-elastic interaction, between phonons and 4f electrons of the Ce ion. The magneto-elastic interaction is usually weak and can be neglected, but here in CeAl2, CePd2Al2, CeCuAl3 and CeAuAl3 is considered to be strong enough, which leads to a bound state called the vibron state. A well determined crystal structure of these compounds is a necessary prerequisite to discuss this unique behaviour. Therefore our investigation is performed on the following levels: A crystal structure study of (Ce,La)Pd2Al2-xGax and CePt2Al2, by low temperature and high temperature X-ray powder diffraction; Investigation of bulk and transport properties of a CePt2Al2 single crystal using the specific heat, magnetisation and electrical resistivity measurements; Symmetry analysis of phonon modes and angular momentum operators in the model Hamiltonian, based on group theory; And finally the study of phonon dispersion curves in CePd2Al2 and LaPd2Al2 single crystals using inelastic X-ray scattering. All these results and preformed analyses lead to the following conclusions: The CePd2Al2 and LaPd2Al2 are incongruently melting phases. We found and described the way which has allowed us to...
65	Catalytic Conversion of Syngas to Higher Alcohols over Cu-Fe Based Catalysts Lu, Yongwu 13 December 2014 (has links) Higher alcohol synthesis (HAS) from syngas or biomass-derived syngas is an important process for the production of oxygenate fuels, fuel additives and other intermediates for valueded chemical feedstock to produce medicine, cosmetics, lubricants, detergents, and polyesters. Chapter I reviews biomass to liquid fuels technology, higher alcohols being used as alternative fuels and fuel additives, the historical perspective and commercial status of higher alcohols, the catalyst system and the reaction mechanism for HAS from syngas. Chapter II discusses the Zn-Mn promoted Cu-Fe based catalyst that was synthesized by the co-precipitation method. The reaction temperature has been tested to study the influence on the catalytic performance. The maximal CO conversion rate was 72%, and the yield of alcohol and hydrocarbon was also very high. Cu was the active site for alcohol synthesis, iron carbide was the active site for olefin and paraffin synthesis. The reaction mechanism of HAS from syngas over Zn-Mn promoted Cu-Fe based catalyst was proposed. Chapter III documents the three-dimensionally ordered macroporous (3DOM) Cu-Fe catalyst developed using a glyoxylate route colloidal crystal template method. The high intrinsic activity was ascribed to three factors. First, the unique ordered structure has a large pore size and interconnected macroporous tunnels of the catalyst with a large accessible surface area to improve the catalytic activity. Second, a high density of uniformly distributed defective Cu0 and Fe5C2 nanoparticles derived from the glyoxylate route helps to provide abundant, active, and stable dual sites. Third, atomic steps on the Cu surface, induced by planar defects and lattice strain, serve as high-activity oxygenation sites. Active Fe5C2 chain-growth sites intimately surround the defective and strained form of the Cu surface, which results in a synergetic effect between the active and stable Cu–FexCy dual site for HAS. In Chapter IV, in situ ambient pressure x-ray photoelectron spectroscopy and in situ synchrotron powder diffraction were applied to identify the active site of 3DOM Cu-Fe catalyst for HAS. The results show that after syngas pretreatment of the 3DOM Cu-Fe catalyst, Cu0 is the active oxygenation site for alcohol synthesis, and Fe5C2 is the active site for carbon chain growth. syngas copper-iron catalyst active site co-precipitation defect three-dimensionally ordered macroporous structure-activity relationship in situ AP–XPS in situ synchrotron powder diffraction higher alcohol synthesis
66	Ultrafast Soft Mode Dynamics in Ferroelectrics studied with Femtosecond X-Ray Diffraction Hernandez, Antonio 22 January 2020 (has links) Ferroelektrische Materialien sind ein Schlüsselbereich der aktuellen Forschung und weisen zahlreiche wichtige technologische Anwendungen auf. Diese Klasse kristalliner Feststoffe zeichnet sich üblicherweise durch eine Vielzahl von para- und ferroelektrischen Phasen auf. Letztere sind dadurch charakterisiert, dass sie auch in Abwesenheit eines äußeren Feldes eine spontane elektrische Polarisation aufweisen. Diese Eigenschaft hat ihren Ursprung in der besonderen elektronischen Struktur ferroelektrischer Materialien, die sich aus einer großen Vielfalt von Gittergeometrien und mikroskopischen Ladungsdichteverteilungen ergibt. Auf atomarer Ebene sind die komplexen Eigenschaften der Ferroelektrika bis jetzt jedoch nur teilweise verstanden. Insbesondere die Verbindung zwischen mikroskopischen elektronischen Ladungsverteilungen und der daraus resultierenden makroskopischen elektrischen Polarisation wirft eine entscheidende, momentan noch offene Frage auf. Die Ladungsdynamik und ihr Zusammenspiel mit Gitteranregungen, insbesondere Softmoden, sind auf atomaren Längen- und Zeitskalen ungelöst. In dieser Arbeit wird das Potenzial der Femtosekunden-Röntgenpulverbeugung aufgezeigt, diese Frage zu adressieren. Diese Methode ermöglicht im Rahmen dieser Arbeit die Bestimmung transienter elektronischer Ladungsdichtekarten für das prototypische ferroelektrische Ammoniumsulfat direkt unterhalb seiner Curie-Temperatur nach einer optischen Anregung. Die Analyse der experimentellen Daten deckte eine bislang unbekannte niederfrequente Gitteroszillation mit einer Periode von 3 ps und nukleare Verschiebungen im Sub-Picometer-Bereich auf, die Ladungsverschiebungen auf einer 100-pm-Längenskala induzieren. Dies sind klare Merkmale, die auf die Anregung einer Softmode hinweisen. Schließlich wird zum ersten Mal die Dynamik der makroskopischen Polarisationsänderung abgeleitet, die eine oszillatorische Umkehr der Polarität aufweist und für ultraschnelle Schaltanwendungen geeignet ist. / Ferroelectrics are an area of current research, with important technological applications such as ferroelectric random access memories, infrared cameras or medical ultrasound equipment. This class of crystalline solids do not commonly only exhibit a ferroelectric phase, but rather go through an abundant variety of para- and ferroelectric phases that depend on the temperature. The ferroelectric phases present a spontaneous electric polarization even in the absence of an external field, in contrast to paraelectric phases and also exhibit a hysteresis loop in analogy to ferromagnets. This macroscopic feature has its origin in their peculiar electronic structure, which results from a rich diversity of lattice geometries and complex microscopic charge distributions. At the atomic level, however, the intricate characteristics of ferroelectrics are only partially understood. The link between microscopic charge distributions and macroscopic electric polarization poses a crucial question to be solved. The interplay of charge dynamics and lattice excitations are still unresolved on atomic length and time scales. In this thesis, femtosecond X-Ray powder diffraction is used to find solutions for these unanswered questions. This method allows for the experimental determination of time-resolved charge density maps from where the structural, charge and polarization dynamics are can be derived. These maps are determined for the photoexcited ferroelectric ammonium sulphate just below its Curie temperature. Data analysis has revealed a newly discovered low frequency lattice oscillation with a 3ps period and sub-picometer nuclear displacements that is related to periodic charge relocations on a 100pm length scale, which is a feature indicative of soft mode behavior. Finally, the dynamics of the variation of polarization are derived for the first time, showing an oscillatory reversal of polarity that holds potential for ultrafast switching applications. Ammoniumsulfat ultraschnell Röntgenpulverbeugung Ferroelektrische Materialien Röntgenbeugung ultrafast x-ray diffraction ammonium sulphate ferroelectric materials powder diffraction 530 Physik UP 4700 ddc:530
67	Impact of mixed solvent on co-crystal solubility, ternary diagrams and crystallisation scale-up. Crystallisations of Isonicotinamide ¿Benzoic Acid Co-crystals from Ethanol ¿Water Co-solvent System. Redha, Batul H. January 2012 (has links) The production of stable solid crystalline material is an important issue in the pharmaceutical industry and the challenge to control the desired active pharmaceutical ingredient (API) with the specific chemical and physical properties has led to more development in the drug industry. Increasing the solubility and the dissolution of the drug will increase its bioavailability; therefore the solubility can be improved with the change in the preparation method. The formation of co-crystals has emerged as a new alternate to the salts, hydrates and solvate methods since the molecules that cannot be formed by the usual methods might crystallise in the form of co-crystals. Co-crystals are multicomponent crystals which can be known as supramolecules and are constructed by the non covalent bonds between the desired former and co-former. Therefore the synthon approach was utilised to design co-crystals with the specific properties, this involves the understanding of the intermolecular interactions between these synthons. These interaction forces can be directed to control the crystal packing in the design of the new crystalline solid with the desired chemical and physical properties. The most familiar synthon was the amide group with its complementary carboxylic group, in this work isonicotinamide and benzoic acid were chosen to design co-crystal and much literature exist that introduce the determination of co-crystal growth from these two compounds. The growth of co-crystals was carried out in water, ethanol and ethanol / water mixed solvent (30 - 90 % ethanol) by utilising the Cryo-Compact circulator. Co-crystals (1:1) and (2:1) were grown in ethanol and water respectively and a mixture of both phases were grown in the mixed solvent. All the phases were examined by powder X-ray diffraction (PXRD), Raman, Infrared and 1H-NMR spectroscopy. The solubility of isonicotinamide, benzoic acid, co-crystals (1:1) and (2:1) in water, ethanol and ethanol/water mixed solvent (30 - 90 % ethanol) were determined at 25 °C, 35 °C and 40 °C by utilising the React-Array Microvate. It was important to understand some of the thermodynamic factors which control the formation of these polymorphs such as the change in the enthalpy and the change in the entropy. Also it was important to study the pH behaviour during dissolution of the former, co-former and co-crystals in water, ethanol and ethanol/water mixed solvent (30 - 90 % ethanol) in-order to examine the affect of the solvent composition on the solubility and to identify if some ions were formed during the dissociation and how this could affects the formation of co-crystals. A discussion has been introduced in this research of how similar solubility of the compounds maps the formation of the typical ternary phase diagram of the mixture of 1:1 while compounds with different solubility maps the formation of skewed phase diagram as shown in section 1.6.2.3. In this project an isotherm ternary phase diagram at 20 °C and 40 °C was constructed to map the behaviour of benzoic acid and isonicotinamide and to show all possible phases formed and the regions where all phases are represented in the ternary phase diagram were determined by the slurry method. The ternary phase diagram was used to design a drawn out and cooling crystallisation at 100 cm3 solution of 50 % ethanol / water mixed solvent and a study of the impact of seeds of co-crystals 1:1 on the cooling crystallisation method. Isonicotinamide (INA) Benzoic acid (BZ) Active Pharmaceutical Ingredient (API) Meta-stable Former Co-former X-Ray Powder Diffraction (PXRD) Cambridge Structural Data (CSD) Co-crystals
68	Size Matters: New Zintl Phase Hydrides of REGa (RE = Y, La, Tm) and RESi (RE = Y, Er, Tm) with Large and Small Cations Werwein, Anton, Hansen, Thomas C., Kohlmann, Holger 06 April 2023 (has links) Many Zintl phases exhibiting a CrB type structure form hydrides. Systematic studies of AeTtHx (Ae = Ca, Sr, Ba; Tt = Si, Ge, Sn), LnTtHx (Ln = La, Nd; Tt = Si, Ge, Sn), and LnGaHx (Ln = Nd, Gd) showed the vast structural diversity of these systems. Hydrogenation reactions on REGa (RE = Y, La, Tm) and RESi (RE = Y, Er, Tm) were performed in steel autoclaves under hydrogen pressure up to 5 MPa and temperatures up to 773 K. The products were analyzed by X-ray and neutron powder diffraction. RESi (RE = Y, Er, Tm) form hydrides in the C-LaGeD type. LaGaD1.66 is isostructural to NdGaD1.66 and shows similar electronic features. Ga-D distances (1.987(13) Å and 2.396(9) Å) are considerably longer than in polyanionic hydrides and not indicative of covalent bonding. In TmGaD0.93(2) with a distorted CrB type structure deuterium atoms exclusively occupy tetrahedral voids. Theoretical calculations on density functional theory (DFT) level confirm experimental results and suggest metallic properties for the hydrides. info:eu-repo/classification/ddc/540 ddc:540
69	Monitoring ibuprofen-nicotinamide cocrystal formation during solvent free continuous cocrystallization (SFCC) using near infrared spectroscopy as a PAT tool Kelly, Adrian L., Gough, Timothy D., Dhumal, Ravindra S., Halsey, S.A., Paradkar, Anant R January 2012 (has links) No / The purpose of this work was to explore NIR spectroscopy as a PAT tool to monitor the formation of ibuprofen and nicotinamide cocrystals during extrusion based solvent free continuous cocrystallization (SFCC). Drug and co-former were gravimetrically fed into a heated co-rotating twin screw extruder to form cocrystals. Real-time process monitoring was performed using a high temperature NIR probe in the extruder die to assess cocrystal content and subsequently compared to off-line powder X-ray diffraction measurements. The effect of processing variables, such as temperature and mixing intensity, on the extent of cocrystal formation was investigated. NIR spectroscopy was sensitive to cocrystal formation with the appearance of new peaks and peak shifts, particularly in the 4800-5200 cm(-1) wave-number region. PXRD confirmed an increased conversion of the mixture into cocrystal with increase in barrel temperature and screw mixing intensity. A decrease in screw rotation speed also provided improved cocrystal yield due to the material experiencing longer residence times within the process. A partial least squares analysis in this region of NIR spectrum correlated well with PXRD data, providing a best fit with cocrystal conversion when a limited range of process conditions were considered, for example a single set temperature. The study suggests that NIR spectroscopy could be used to monitor cocrystal purity on an industrial scale using this continuous, solvent-free process. Chemistry Crystallisation Crystallography Drug compounding Ibuprofen Least-squares analysis Niacinamide Powder diffraction Solvents Spectroscopy Temperature Time factors REF 2014 X-Ray
70	Synthèse de nouvelles céramiques polycristallines transparentes par cristallisation complète du verre / Synthesis of new transparent polycrystalline ceramics from full glass crystallization Boyer, Marina 22 September 2016 (has links) Les céramiques polycristallines transparentes sont une classe émergente de matériaux pour des applications optiques et photoniques. Au cours de cette thèse, nous avons utilisé une méthode innovante pour élaborer de tels matériaux : la cristallisation complète d'un verre parent. Ce procédé permet d'obtenir de nouvelles céramiques polycristallines transparentes grâce à l'absence de porosité, inhérente à la fabrication du verre parent et aussi d'accéder à de nouvelles phases cristallines. Deux études ont été menées pour améliorer la vitrification de la composition BaAl₄O₇ (1ère céramique transparente obtenue par cristallisation complète du verre). Des résultats surprenants ont été obtenus avec la cristallisation d'une nouvelle phase (BaGa₄O₇) ou avec la synthèse de céramiques biphasiques transparentes BaAl₄O₇ - BaAl₂O₄ dont la transparence est fortement améliorée par rapport à la céramique de BaAl₄O₇, grâce à la cristallisation d'une seconde phase BaAl₂O₄, limitant la croissance des grains biréfringents de BaAl₄O₇. Des céramiques polycristallines transparentes appartenant à la famille des mélilites, de formule générale Sr₁₊xRE₁₋xGa₃O₇₊x∕₂ (RE : rare earth), ont aussi été synthétisées. Des propriétés d'émission de lumière visible ont été mises en évidence à partir des compositions SrGdGa₃O₇ et SrYbGa₃O₇. Cette famille de céramiques polycristallines transparentes ouvre la voie à d'autres applications où l'absence totale de porosité ainsi que l'élaboration de nouvelles phases cristallines inaccessibles par réaction à l'état solide sont des facteurs clés. Ces possibilités ont été démontrées dans le cas de céramiques transparentes présentant une importante conductivité ionique. / Transparent polycrystalline ceramic is an emerging class of optic and photonic materials. During this thesis, we used an innovative method to elaborate such materials: the full glass crystallization. This process permits to obtain new transparent polycristalline ceramics through the lack of porosity, inherent to the parent glass and to access to new crystalline phases. Two studies were leaded to improve the glass forming ability of the BaAl₄O₇ composition (1st transparent ceramic obtained from full glass crystallization). Surprising results were obtained with the crystallization of a new phase (BaGa₄O₇) or with the synthesis of two-phase transparent ceramics (BaAl₄O₇ – BaAl₂O₄) where the transparency is considerably enhanced compared to the BaAl₄O₇ ceramic thanks to a second phase crystallization (BaAl₂O₄), limiting the growth of the birefringent BaAl₄O₇ grains. Transparent polycristalline ceramics belonging to the melilite family, with Sr₁₊xRE₁₋xGa₃O₇₊x∕₂ (RE: rare earth) general formulae were also synthesized. White light emission properties have been demonstrated from the SrGdGa₃O₇ and SrYbGa₃O₇ compositions. This family opens the way to others applications where the total absence of porosity with the elaboration of new crystalline phases unattainable by solid state reaction are key factors. These possibilities were demonstrated in the case of transparent polycristalline ceramics showing an important ionic conductivity. Céramique transparente Verre Vitrocéramique Cristallisation Résolution structurale Diffraction sur poudre Microstructure Luminescence Conductivité ionique Transparent ceramic Glass Glass ceramic Crystallisation Structural determination Powder diffraction Microstructure Luminescence Ionic conductivity 620.144

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