Global ETD Search

931	CVD and ALD in the Bi-Ti-O system Schuisky, Mikael January 2000 (has links) Bismuth titanate Bi4Ti3O12, is one of the bismuth based layered ferroelectric materials that is a candidate for replacing the lead based ferroelectric materials in for instance non-volatile ferroelectric random access memories (FRAM). This is due to the fact that the bismuth based ferroelectrics consists of pseudo perovskite units sandwiched in between bismuth oxide layers, which gives them a better fatigue nature. In this thesis thin films of Bi4Ti3O12 have been deposited by chemical vapour deposition (CVD) using the metal iodides, BiI3 and TiI4 as precursors. Films grown on MgO(001) substrates were found to grow epitaxially. The electrical properties were determined for films grown on Pt-coated silicon and good properties such as a high dielectric constant (ε) of 200, low tan δ of 0.018, a remnant polarisation (Pr) of 5.3 μC/cm2 and coercive field (Ec) as high as 150 kV/cm were obtained. Thin films in the Bi-Ti-O system were also deposited by atomic layer deposition (ALD) using metalorganic precursors. In addition to the ternary bismuth titanates, films in the binary oxide systems i.e. bismuth oxides and titanium oxides were deposited. Epitaxial TiO2 films were deposited both by CVD and ALD using TiI4 as precursor. The rutile films deposited by ALD were found to grow epitaxially down to a temperature of at least 375 ¢ªC on α-A12O3(0 1 2) substrates. The TiO2 ALD process was also studied in-situ by QCM. Different bismuth oxides were deposited by halide-CVD using BiI3 as precursor on MgO(0 0 1) and SrTiO3(0 0 1) substrates and the results were summarised in an experimental CVD stability diagram. The Bi2O2.33 phase was found to grow epitaxially on both substrates. Chemistry Halide-CVD ALD Bismuth titanate Bi4Ti3O12 Titanium oxide TiO2 Bismuthoxide Bi2O2.33 Epitaxy QCM. Kemi Chemistry Kemi
932	Design and synthesis of -turn peptidomimetics : Applications to angiotensin II Lindman, Susanna January 2001 (has links) This study addresses the issue of how to convert peptides into drug-like non-peptides while retaining the biological activity at peptide receptors. Angiotensin II (Asp-Arg-Val-Tyr-Ile-His-Pro-Phe, Ang II) was used as a model peptide. Small bioactive peptides are in most cases conformationally flexible molecules. Rigidified peptide analogues or peptidomimetic scaffolds can be introduced into the peptide, to enforce a particular backbone conformation, and thereby locate the side-chains at defined positions in space. The conformationally constrained analogues are of considerable value in determining biologically active conformation(s) of the studied peptide. The strategy applied in this thesis includes identification of non-pharmacophoric amino acid residues, rigidification, conformational analysis and incorporation of turn mimicking scaffolds in Ang II. Several side-chain cyclized (disulfide and methylendithioether) Ang II analogues have been synthesized. The binding studies of the rigidified analogues demonstrated that the compounds designed for the AT1-receptor had affinity for both receptor subtypes, while the compounds designed for the AT2-receptor displayed high selectivity only for this receptor subtype. Conformational evaluation revealed that several of the cyclized Ang II analogues most probably adopt a γ-turn like conformation around Tyr-4 while interacting with the Ang II receptor. Based on this hypothesis, three different γ-turn mimetics replacing amino acid residues 3-5 were designed, synthesized and incorporated into Ang II. One of the synthesized pseudopeptides, incorporating an azepine-containing γ-turn mimetic, exerted high binding affinity and agonistic activity. These results strongly support the theory that Ang II adopts a γ-turn like conformation when activating the AT1 receptor. The other Ang II analogues, incorporating bicyclic and aromatic γ-turn mimetics, did not display any binding to the AT1 receptor. Pharmaceutical chemistry peptide synthesis turn mimetics molecular modelling receptor binding affinity Farmaceutisk kemi Pharmaceutical chemistry Farmaceutisk kemi
933	Regiocontrol in the Heck-reaction and fast fluorous chemistry Olofsson, Kristofer January 2001 (has links) The palladium-catalysed Heck-reaction has been utilised in organic synthesis, where the introduction of aryl groups at the internal, β-carbon of different allylic substrates has been achieved with high regioselectivity. The β-stabilising effect of silicon enhances the regiocontrol in the internal arylation of allyltrimethylsilane, while a coordination between palladium and nitrogen induces very high regioselectivities in the arylation of N,N-dialkylallylamines and the Boc-protected allylamine, producing β-arylated arylethylamines, which are of interest for applications in medicinal chemistry. Phthalimido-protected allylamines are arylated with poor to moderate regioselectivity. Single-mode microwave heating can reduce the reaction times of Heck-, Stille- and radical mediated reactions drastically from approximately 20 hours to a few minutes with, in the majority of cases, retained, high regioselectivity. The use of heavily fluorinated tin reagents, which proved to be unreactive under thermal heating, is shown to be applicable with microwave-heating and the high fluorous content of the products is utilised with the aim of improving and simplifying the work-up procedure. Pharmaceutical chemistry palladium Heck-koppling regiokontroll MAO-hämmare ssao-hämmare mikrovågskemi Farmaceutisk kemi Pharmaceutical chemistry Farmaceutisk kemi
934	Theoretical modelling of thin film growth in the B-N system Mårlid, Björn January 2001 (has links) In vapour phase deposition, the knowledge and control of homogeneous and heterogeneous reactions in connection to precursor design may lead to the deposition of the desired material; structure or phase. This thesis is a document attempting to increase the knowledge of film growth in the B-N system. In the present work, surface processes like adsorption, abstraction, migration and nucleation have been modelled on an atomic scale using density functional theory (DFT). The systems studied are mainly cubic and hexagonal boron nitride surfaces ((c-BN) vs. (h-BN)), but also the α-boron (001) surface. It has been shown that DFT and a cluster approach is a reliable tool in modelling boron nitride surfaces and surface processes, provided that certain functionals, basis sets and geometrical constraints are used. By using surface stabilisers such as H species in an electron- or radical-rich environment, it has been shown that i) the structure of cubic boron nitride surfaces can be sustained, and ii) c-BN may nucleate on the h-BN (001) basal plane. Furthermore, the nucleation of c-BN from arbitrary and experimental growth species is energetically preferable over a continuous growth of h-BN on the h-BN (001) edges. An atomic layer deposition (ALD) process for boron nitride was developed. It resulted in turbostratic (t-BN), transparent, well-adherent and almost atomically smooth BN films. However, with the cubic phase of boron nitride absent in the ALD films, more effort needs to be put into both the theoretical and the experimental branches of this field of science. Chemistry Boron nitride boron theoretical modelling DFT surface processes surfaces thin films growth ALD Kemi Chemistry Kemi
935	CVD and ALD of Group IV- and V-Oxides for Dielectric Applications Forsgren, Katarina January 2001 (has links) Due to the constantly decreasing dimensions of electronic devices, the conventional dielectric material in transistors and capacitors, SiO2, has to be replaced by a material with higher dielectric constant. Some of the most promising candidates are tantalum oxide,Ta2O5, zirconium oxide, ZrO2 and hafnium oxide, HfO2. This thesis describes new chemical vapour deposition (CVD) and atomic layer deposition (ALD) processes for deposition of Ta2O5, ZrO2 and HfO2 using the metal iodides as starting materials. The layer-by-layer growth in ALD was also studied in real time with a quartz crystal microbalance (QCM) to examine the process characteristics and to find suitable parameters for film deposition. All the processes presented here produced high-purity films at low deposition temperatures. It was also found that films deposited on Pt substrates generally crystallise at lower temperature, or with lower thickness, than on silicon and single-crystalline oxide substrates. Films grown on MgO(001) and α-Al2O3(001) substrates were strongly textured or epitaxial. For example, monoclinic HfO2 deposited on MgO(001) were epitaxial for deposition temperatures of 400-500 C in ALD and 500-600 C in CVD. Electrical characterisation showed that the crystallinity of the films had a strong effect on the dielectric constant, except in cases of very thin films, where the dielectric constant was more dependent on layer thickness. Chemistry CVD ALD Dielectric constant Tantalum oxide Ta2O5 Zirconium oxide ZrO2 Hafnium oxide HfO2 QCM Kemi Chemistry Kemi
936	Cooperative Lithium-Ion Insertion Mechanisms in Cathode Materials for Battery Applications Björk, Helen January 2002 (has links) Understanding lithium-ion insertion/extraction mechanisms in battery electrode materials is of crucial importance in developing new materials with better cycling performance. In this thesis, these mechanisms are probed for two different potential cathode materials by a combination of electrochemical and single-crystal X-ray diffraction studies. The materials investigated are V6O13 and cubic LiMn2O4 spinel. Single-crystal X-ray diffraction studies of lithiated phases in the LixV6O13 system (x=2/3 and 1) exhibit superlattice phenomena and an underlying Li+ ion insertion mechanism which involves the stepwise addition of Li+ ions into a two-dimensional array of chemically equivalent sites. Each successive stage in the insertion process is accompanied by a rearrangement of the Li+ ions together with an electron redistribution associated with the reduction of specific V-atoms in the structure. This results in the formation of electrochemically active sheets in the structure. A similar mechanism occurs in the LiMn2O4 delithiation process, whereby lithium is extracted in a layered arrangement, with the Mn atoms forming charge-ordered Mn3+/Mn4+ layers. Lithium-ion insertion/extraction processes in transition-metal oxides would thus seem to occur through an ordered two-dimensional arrangement of lithium ions extending throughout the structure. The lithium ions and the host structure rearrange cooperatively to form superlattices through lithium and transition-metal ion charge-ordering. A picture begins to emerge of a universal two-dimensional lithium-ion insertion/extraction mechanism analogous to the familiar staging sequence in graphite. Chemistry Li-ion battery cathode materials single-crystal X-ray diffraction delithiation superlattice phase transformation charge-ordering Kemi Chemistry Kemi
937	Concerted or Stepwise? : β-Elimination, Nucleophilic Substitution, Copper Catalysed Aziridination and Ruthenium Catalysed Transfer Hydrogenation Studied by Kinetic Isotope Effects and Linear Free-Energy Relationships Ryberg, Per January 2002 (has links) This thesis describes the use of kinetic isotope effects, linear free energy relationships and stereochamical studies to distinguish between different mechanistic alternatives and to obtain information about transition state structure. In the first part fluorine and deuterium kinetic isotope effects were determined for the base promoted HF elimination from 4-fluoro-4-(4’-nitrophenyl)butane-2-on. During this work a new method for the determination of fluorine kinetic isotope effects was developed. The results from the study demonstrates that the reaction proceeds via an E1cBip mechanism. In the second part the transition state structure for the SN2 reaction between ethyl chloride and cyanide ion in DMSO was studied. Kinetic isotope effects for six different positions in the reacting system, both in cyanide and ethyl chloride, were determined. The experimental isotope effects were then compared with the theoretically predicted isotope effects. The third part describes the use of Hammett type free-energy relationships and stereochemical evidence to study the mechanism of the copper catalysed alkene aziridination. The results from the study support a model that involves the simultaneous presence of two different copper nitrene intermediates. One which reacts non-stereospecifically via a radical intermediate and one which reacts stereospecifically via a concerted mechanism. In the fourth part a mechanistic study of the Ru(aminoalcohol) catalysed transfer hydrogenation of acetophenone in isopropanol is described. Kinetic isotope effects were determined for both proton and hydride transfer. The observation of significant primary deuterium kinetic isotope effects for both proton and hydride transfer support a mechanism where the proton and hydride are transferred simultaneously in a concerted mechanism. Organic chemistry Kinetic isotope effect linear free energy relationship elimination substitution aziridination transfer hydrogenation Organisk kemi Organic chemistry Organisk kemi
938	Aspects of Antisense and Antigene Chemistry of Oligonucleotides Tethered to Intercalators Ossipov, Dimitri January 2002 (has links) Synthetic and physicochemical studies on appropriately functionalized ODN-conjugates have been performed to evaluate their abilities to act as antisense agents against RNA or as intramolecular DNA cross-linking agents. Intercalating aromatic systems [phenazine (Pnz), dipyridophenazine (DPPZ)] and metallointercalators such as Ru2+(phen)2(DPPZ) and Ru2+(tpy)(DPPZ)<b>L</b> [where <b>L</b> = chemically or photochemically labile ligand, phen = phenanthroline, tpy = terpyridine], which are covalently tethered to the oligo-deoxynucleotides (ODNs), have been chosen for this purpose. The ODN-conjugates were typically prepared by automated solid phase synthesis using phosphoramidite building blocks, or on solid supports, both functionalized with the chromophore groups. The photosensitive metal complex, Ru2+(tpy)(DPPZ)(CH3CN), has been incorporated by post-synthetic coupling to the amino-linker modified ODNs via an amide bond. The intercalating ability of the tethered chromophores gave enhanced stability of the duplexes and triplexes formed with ODN-conjugates and their complementary targets: DNA, RNA, or double-stranded DNA. The conjugation of DPPZ chromophore to ODN (at 3', 5' or at the middle) led us to incorporate Ru2+(phen)2(DPPZ) through the DPPZ ligand, for the first time. The corresponding (Ru2+-ODN)•DNA duplexes showed dramatic stabilization (ΔTm = 19.4 – 22.0ºC). The CD and DNase I footprinting experiments suggest that the stabilization is owing to metallointercalation by threading of the Ru2+(phen)2 moiety through the ODN•DNA duplex core, thus "stapling" the two helical strands from the minor to major groove. On the other hand, Ru2+(tpy)(DPPZ)(CH3CN)-ODN conjugates represent a new class of oligonucleotides containing the photoactivatible Ru2+ complexes, which can successfully crosslink to the complementary strand. The mechanism of cross-linking upon photoirradiation of [Ru2+(tpy)(DPPZ)(CH3CN)-ODN]•DNA involves in situ conversion to the reactive [Ru2+(tpy)(DPPZ)(H2O)-ODN]•DNA which are subsequently cross-linked through the G residue of the complementary DNA strand. All starting materials and products have been purified by HPLC and/or by PAGE and subsequently characterized by MALDI-TOF as well as ESI mass spectroscopy. Terminal conjugation of the planar Pnz and DPPZ groups through the flexible linkers were also shown to improve thermal stability of the ODN•RNA hybrid duplexes without alteration of the initial AB-type global helical structure as revealed from CD experiments. As a result, RNase H mediated cleavage of the RNA strand in the intercalator-tethered ODN•RNA duplexes was more efficient compared to the natural counterpart. The RNase H cleavage pattern was also found to be dependent on the chemical nature of the chromophore. It appeared that introduction of a tether at the 3'-end of the ODN can be most easily tolerated by the enzyme regardless of the nature of the appending chromophore. The tethered DPPZ group has also been shown to chelate Cu2+ and Fe3+, like phenanthroline group, followed by the formation of redox-active metal complex which cleaves the complementary DNA strand in a sequence-specific manner. This shows that the choice of appropriate ligand is useful to (i) attain improved intercalation giving Tm enhancement, and (ii) sequence-specifically inactivate target RNA or DNA molecules using multiple modes of chemistry (RNase H mediated cleavage, free-radical, oxidative pathways or photocross-linkage). Bioorganic chemistry oligonucleotides intercalators ruthenium complexes RNase H cleavage photocross-linkage Bioorganisk kemi Bioorganic chemistry Bioorganisk kemi
939	Design and Characterisation of new Anode Materials for Lithium-Ion Batteries Fransson, Linda January 2002 (has links) Reliable ways of storing energy are crucial to support our modern way of life; lithium-ion batteries provide an attractive solution. The constant demand for higher energy density, thinner, lighter and even more mechanically flexible batteries has motivated research into new battery materials. Some of these will be explored in this thesis. The main focus is placed on the development of new anode materials for lithium-ion batteries and the assessment of their electrochemical and structural characteristics. The materials investigated are: natural Swedish graphite, SnB2O4 glass and intermetallics such as: Cu6Sn5, InSb, Cu2Sb, MnSb and Mn2Sb. Their performances are investigated by a combination of electrochemical, in situ X-ray diffraction and Mössbauer spectroscopy techniques, with an emphasis on the structural transformations that occur during lithiation. The intermetallic materials exhibit a lithium insertion/metal extrusion mechanism. The reversibility of these reactions is facilitated by the strong structural relationships between the parent compounds and their lithiated counterparts. Lithiation of a majority of the intermetallics in this work proceeds via an intermediate ternary phase. The intermetallic electrodes provide high volumetric capacities and operate at slightly higher voltages vs. Li/Li+ than graphite. This latter feature forms the basis for a safer system. Jet-milling of natural Swedish graphite results in decreased particle and crystallite size, leading to improved performance; the capacity is close to the theoretical capacity of graphite. Jet-milled graphite also shows an enhanced ability to withstand high charging rates. Chemistry in situ X-ray diffraction graphite Li-ion battery anode materials intermetallics structure-property relationships Kemi Chemistry Kemi
940	Disease activity in rheumatoid arthritis : Studies in interleukin-6, tumour necrosis factor alpha, monocyte activity, acute phase markers, glucocorticoids, and disability Arvidson, Nils Gunnar January 2003 (has links) In the present studies, aspects of some disease activity measures in rheumatoid arthritis (RA) have been investigated, including the effect of glucocorticoids on this activity. In RA, serum interleukin(IL)-6 levels were elevated and were shown to have a circadian rhythm, with peak levels in the morning, declining towards low or normal levels in the afternoon and evening. In contrast, serum levels of tumour necrosis factor(TNF) alpha were low and stable. In other connective tissue diseases, serum TNF alpha levels were elevated but without circadian variation, while IL-6 levels were low and stable. Nocturnal administration (at 2:00 a.m.) of low-dose prednisolone a few hours before the early morning peak of IL-6 was shown to be significantly more effective in reducing clinical symptoms of disease activity and serum IL-6 levels than the traditional morning administration (at 7:30 a.m.) of the same dose of prednisolone. Circulating monocytes are activated in RA, expressing receptors related to adhesion and phagocytosis. Treatment with glucocorticoids suppressed the expression of these receptors on monocytes, and this may be one mechanism of the beneficial effect of glucocorticoids in RA. Endogenous levels of cortisol seem to play a minor role in expression of monocyte receptors. The different acute phase markers used to assess disease activity in RA showed good corrrelations with each other and with serum IL-6 levels. There were especially strong corrrelations between C-reactive protein (CRP) and Serum amyloid protein A (SAA), and between fibrinogen and erythrocyte sedimentation rate (ESR). Fibrinogen and CRP showed stronger correlation than ESR with the Modified Health Assessment Questionnaire (MHAQ) score and with the neutrophil count. Four simple objective function tests were each compared with the HAQ score a with a radiological joint damage score (Larsen score). The objective function tests correlated with the MHAQ score, and each of these two methods of assessing physical disability correlated with pain, CRP and ESR. In addition, most of the objective function tests correlated significantly with radiological joint damage, while the MHAQ score did not. Chemistry acute phase markers circadian rhythm disability disease activity glucocorticoids monocyte activation rheumatoid arthritis Kemi Chemistry Kemi

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