Global ETD Search

791	Synthesis and Self-assembly of Star-shape Giant Molecules Based on Hydrophilic Polyhedral Oligomeric Silsesquioxane (POSS) Mu, Gaoyan 31 August 2018 (has links) No description available. Polymers Polymer Chemistry Chemical Engineering Chemistry Materials Science self-assembly giant molecules giant surfactants POSS
792	New insight into the interaction of light with tailored and photofunctional materials: the role of (dis-)order, periodicity and symmetry Bourdon, Björn 26 February 2020 (has links) Within this thesis, photo-induced mechanisms of the light-matter interaction are investigated in tailored and photofunctional materials that differ significantly in their optical and structural properties. The individual coupling mechanisms in congruently melted, nominally undoped or iron doped lithium niobate crystals as well as in structurally disordered photoswitchable molecules embedded into a solid state polymer are examined in particular by the principle of holographic grating recording and transient absorption spectroscopy which provide new insight into a variety of material response properties. In case of photoswitchable ruthenium sulfoxide compounds, the underlying mechanism can be unambiguously assigned to a photochromic material response evoked by a photochemical reaction, i.e., a non-instantaneous, local ligand isomerisation. Comparable results are obtained for iron-doped, oxidized lithium niobate where holographic grating recording is related to the photophysical generation of transient excitonic states whose photochromic properties are characterized by targeted ns-pump, supercontinuum probe spectroscopy. In the event of nominally undoped lithium niobate, the holographic amplification of two sub-picosecond pulses is attached to the phenomenon of two-beam coupling on a self-induced dynamic grating. By correlating the individually obtained mechanisms of the light-matter interaction and the light-induced material response, generally accepted conclusions on a microscopic level can be achieved. A major influence of the internal structure and orientation of the excited states, i.e., an appropriate threedimensional structural arrangement, is deduced as a prerequisite for the formation of light-induced, macroscopic refractive index changes while absorption and microscopic refractive index alterations linked via the Kramers-Kronig relation are unaffected. In systems featuring a random distribution of excited states, an orientational order might be achieved as a consequence of linear polarized light, i.e., by polarization structuring. Moreover, if the photorefractive effect can be ruled out, the material response in lithium niobate can be solely assigned to a local alteration of the transient electronic states, i.e., to the photochromic properties of polarons and/or excitonic states, which is in particular comparable to the linkage isomerism of molecular photoswitchable molecules. In addition, the influence of structural parameters on the light-matter/surface interaction is studied on the μm-scale by analyzing the diffraction phenomenon arising from a relief grating. A considerable impact on the surface grating assisted coupling is determined by the transition from cw-lasers to ultrashort laser pulses which enables interference quenching. However, this phenomenon is of no consequence in case of selfinduced holographic gratings. light-matter interaction photoswitchable molecules tailored materials lithium niobate holographic gratings self-trapped excitons ddc:530
793	Electronic structure studies of metal-organic and intermetallic compounds Takács, Albert Flavius 23 January 2006 (has links) Many technological aspects of everyday life are based on practical applications of the magnetic properties of the materials. Miniaturization is a key technological aspect; electronic circuits and storage devices are nowadays steadily decreasing in size and will eventually reach molecular dimensions. The understanding and predictions of the properties of matter at atomic levels represents one of the great achievements of the last years in science. In the present thesis, the aim is to present a complete study of the electronic structure of selected materials, by means of experimental and theoretical methods. The class of materials which are presented in this thesis, are belonging to the magnetic molecules and intermetallic compounds. The electronic structure of the single molecule system named ferric star molecule has been studied. From the resonant X-ray emission study the trend observed for the FeFe3 star gives a signature for the high-spin structure, or more precisely of strong magnetic systems like FeO or Heusler alloys. For the case of intermetallic alloys and compounds, the Mn 2p core-level presents a visible split structure, which is arising from the exchange interactions between the core-hole and the unpaired 3d electrons. The interpretation of this splitting can be regarded as an evidence of local magnetic moments belonging to the Mn site. electronic structure magnetic molecules intermetallic compounds 33.05 - Experimentalphysik 33.07 - Spektroskopie 29 - Physik, Astronomie ddc:530
794	Asymmetric Adsorbate and Substrate Interactions in Physisorbed Systems: N2 on Graphite and Dipolar Molecules on Ionic Substrates Burns, Teresa Ellen 01 August 1994 (has links) Asymmetries in physisorbed systems give rise to interesting phases and phase transitions in two-dimensional (2D) monolayer and multilayer systems. The effects of asymmetric adsorbate and substrate interactions in monolayers of dipolar molecules on ionic substrates and N2 on graphite are studied. In the case of dipolar molecules on ionic substrates, 2D dielectric phase transitions using a modified Blume-Emery-Griffiths (BEG) model are determined theoretically. A dipole adsorbed vertically above a metal ion lattice site, and pointing up (down), is assigned a spin s=+1 (s=-1). An empty lattice site is assigned a spin S=0. Analytic solutions for both ferroelectrically and antiferroelectrically ordered systems are found. The model is applied to CO adsorbed on MgO and NaCl, and preliminary results for the phase diagram of CH3F on NaCl, are presented. Multilayer phase transitions for N2 on graphite are studied experimentally using synchrotron x-ray diffraction. The system is measured to undergo layering transitions, where the number of layers increases as the temperature of the system increases. A new multilayer phase diagram based on our results and the combined results published by other researchers is presented. The effects of capillary condensation on this multilayer system are quantified, and it is determined that its primary effect is to broaden the discrete layering transitions. The results for both studies are put into context with other adsorption systems with asymmetric interactions. Asymmetric Adsorbate Substrate interactions physisorbed graphite nitrogen dipolar molecules ionic Physics
795	Synthèse d’assemblages multimétalliques de lanthanides : des propriétés électroniques des précurseurs divalents au contrôle de leur réactivité / Multimetallic lanthanide assemblies synthesis : from the electronic properties of divalent lanthanides to reactivity control Xemard, Mathieu 21 September 2018 (has links) Longtemps la chimie des lanthanides divalents a été limitée par le nombre et la qualité des précurseurs disponibles. Ce travail s'intéresse donc à la préparation de nouveaux précurseurs et à leur application en activation de petites molécules dans l'optique de préparer de nouveaux matériaux.Des précurseurs peu encombrés de type triflates ont ainsi été préparés et leur comportement en solution a été étudié. L'anion triflate présentant l'avantage de favoriser les assemblages en raison de ses différents modes de coordination.Un autre type de précurseur a été synthétisé et étudié : il s'agit des lanthanidocènes. Alors que la chimie organométallique des lanthanides se heurte souvent à un contrôle difficile des symétries, un ligand à neuf chaînons a permis d'isoler les premiers ytterbocènes et samarocènes divalents.La synthèse de ces nouveaux précurseurs pose la question de leurs propriétés électroniques. Ces-dernières ont donc été étudiées sur plusieurs précurseurs de thulium divalents illustrant ainsi l'influence de la symétrie des complexes. Un choix judicieux de chimie de coordination a notamment permis d'isoler les premières molécules-aimants de lanthanides divalents.Enfin, dans un troisième temps, la réactivité vis-à-vis de petites molécules des précurseurs préparés a été étudiée montrant ainsi qu'il était possible de construire des assemblages variés par réactivité des lanthanides divalents. L'accessibilité d'un assemblage Sm/S présentant des molécules coordinées échangeables a permis de progressivement passer de la molécule au matériau par de la chimie supramoléculaire. / Divalent lanthanide chemistry has long been hampered by the lack of adapted precursors. This work is therefore focussing on the preparation of new divalent lanthanides precursors and their use in small molecule activation for building new materials.Triflate precursors were prepared and their solution properties were studied. ith their multiple coordination modes, triflate anions were shown to favour assemblies growth.Another type of precursor was also prepared: the lanthanidocene. Although organometallic chemistry of lanthanide is often known for the poor control of the complexes symmetry, a 9-membered ligand allowed the preparation of the "true" divalent ytterbocene and samarocene.The electronic properties of divalent lanthanides complexes are poorly known. The prepared thulium (II) precursors were therefore extensively studied. The influence of the symmetry on electronic properties was caracterised and a well-chosen set of ligands was proven to enable interesting magnetic properties such as single-molecule-magnet behaviour.The last part of this work focused on the reactivity of these precursors towards small molecules. Assemblies were grown from the reactivity of divalent samarium with carbon dioxide or yellow sulfur. On one of the obtained assemblies, supramolecular chemistry was carried out, progressively bridging the gap between molecules and materials. Lanthanides Activation de petites molécules Assemblages Lanthanidocène Spectroscopie Lanthanides Small molecules activation Assemblies Lanthanidocene Spectroscopy 546.41
796	Synthèse d'alcaloïdes de la famille des Lycorines par métathèse tandem / Synthesis of alkaloids of the Lycorine family through tandem ring closing metathesis Le, Thi Minh Thi 18 December 2018 (has links) Ce travail de thèse s’intéresse à la synthèse totale d'alcaloïdes de la famille des Lycorines, produits naturels isolés à partir de plantes des Amaryllidaceae qui possèdent de multiples activités biologiques. Leurs structures sont caractérisées par un squelette commun tétracyclique azoté : le galanthane. L’accès rapide au squelette galanthane a été développé via une étape clé de métathèse tandem cyclisante permettant d’obtenir deux cycles fonctionnalisés en une seule étape. La première partie de ce travail a conduit au développement d’une voie de synthèse asymétrique des (–)-α et (–)-β-lycoranes à partir d’un même intermédiaire, une sulfinylaldimine α-chirale, obtenue par réduction d’un N-sulfinylthioimidate α-chiral grâce à des conditions développées au laboratoire. La seconde partie de ce travail a porté sur la synthèse asymétrique de la (+)-kirkine, nécessitant une révision de la stratégie pour former le cycle B du squelette galanthane de manière précoce dans la synthèse. Nous avons réalisé la première synthèse totale asymétrique de la structure décrite de la (+)-kirkine. L’obtention des lycoranes et de la kirkine prouve la flexibilité ainsi que l'efficacité de la voie de synthèse, en particulier de l'étape clé de métathèse tandem et des N-sulfinylthioimidates comme intermédiaires clés. Cette voie est donc très prometteuse pour accéder à d'autres composés naturels de la famille des Lycorines. / This thesis work focuses on the total synthesis of alkaloids of the Lycorine family, natural products isolated from the plants of Amaryllidaceae, owning many biological properties such as anticancer, antiviral, antimicrobial or anti-inflammatory. Their structure is characterized by a nitrogen-containing tetracyclic galanthan skeleton. A fast access to the galanthan skeleton was developed by a key tandem ring closing metathesis step to obtain two cycles in a single step. The first part of this work concerns the development of an asymmetric synthetic pathway to obtain the (–)-α and (–)-β-lycoranes from a common central intermediate, an α-chiral sulfinylaldimine, obtained by reduction of the corresponding α-chiral sulfinylthioimidate. The second part of this work focuses on the asymmetric synthesis of (+)-kirkine, which required a strategy revision for the formation of the B cycle of the galanthan skeleton earlier in the synthesis. We have succeeded in realising the first asymmetric total synthesis of the described structure for (+)-kirkine. The asymmetric synthesis of lycoranes and kirkine proves the flexibility and efficiency of the synthetic route, in particular of the tandem metathesis step and the N-sulfinylthioimidates as key intermediates. This synthetic pathway is therefore very promising to obtain other natural products of the Lycorine family. Métathèse Lycorine Synthèse totale Molécules bioactives Metathesis Lycorine Total synthesis Bioactive molecules 540
797	Discovery, Characterization, and Development of Small Molecule Inhibitors of Glycogen Synthase Tang, Buyun 06 1900 (has links) Indiana University-Purdue University Indianapolis (IUPUI) / The over-accumulation of glycogen appears as a hallmark in various glycogen storage diseases (GSDs), including Pompe, Cori, Andersen, and Lafora disease. Glycogen synthase (GS) is the rate-limiting enzyme for glycogen synthesis. Recent evidence suggests that suppression of glycogen accumulation represents a potential therapeutic approach for treating these diseases. Herein, we describe the discovery, characterization, and development of small molecule inhibitors of GS through a multicomponent study including biochemical, biophysical, and cellular assays. Adopting an affinity-based fluorescence polarization assay, we identified a substituted imidazole molecule (H23), as a first-in-class inhibitor of yeast glycogen synthase 2 (yGsy2) from the 50,000 ChemBridge DIVERSet library. Structural data derived from X-ray crystallography at 2.85 Å, and enzyme kinetic data, revealed that H23 bound within the uridine diphosphate glucose binding pocket of yGsy2. Medicinal chemistry efforts examining over 500 H23 analogs produced structure-activity relationship (SAR) profiles that led to the identification of potent pyrazole and isoflavone compounds with low micromolar potency against human glycogen synthase 1 (hGYS1). Notably, several of the isoflavones demonstrated cellular efficacy toward suppressing glycogen accumulation. In an alternative effort to screen inhibitors directly against human GS, an activity-based assay was designed using a two-step colorimetric approach. This assay led to the identification of compounds with submicromolar potency to hGYS1 from a chemical library comprised of 10,000 compounds. One of the hit molecules, hexachlorophene, was crystallized bound to the active site of yGsy2. The structure was determined to 3.15 Å. Additional kinetic, mutagenic, and SAR studies validated the binding of hexachlorophene in the catalytic pocket and its non-competitive mode of inhibition. In summary, these two novel assays provided feasible biochemical platforms for large-scale screening of small molecule modulators of GS. The newly-developed, potent analogs possess diverse promising scaffolds for drug development efforts targeting GS activity in GSDs associated with excess glycogen accumulation. / 2021-07-01 Cell model Enzymology Glycogen synthase High-throughput screening Small molecules X-ray crystallography
798	Netrin 1 mediates protective effects exerted by insulin-like growth factor 1 on cochlear hair cells / Netrin 1はインスリン様細胞成長因子1による蝸牛有毛細胞保護効果を仲介する Yamahara, Kohei 23 January 2018 (has links) 京都大学 / 0048 / 新制・課程博士 / 博士(医学) / 甲第20798号 / 医博第4298号 / 新制\|\|医\|\|1025(附属図書館) / 京都大学大学院医学研究科医学専攻 / (主査)教授辻川明孝, 教授清水章, 教授戸口田淳也 / 学位規則第4条第1項該当 / Doctor of Medical Science / Kyoto University / DFAM effector molecules insulin-like growth factor 1 Netrin 1 sensorineural hearing loss supporting cells 490
799	Development of DNA-binding Synthetic Molecules Toward Selective Gene Regulation and Cell Fate Control / DNA結合性合成化合物による選択的な遺伝子発現制御と細胞の運命制御の検討 Taniguchi, Junichi 26 March 2018 (has links) 京都大学 / 0048 / 新制・課程博士 / 博士(理学) / 甲第20940号 / 理博第4392号 / 新制\|\|理\|\|1631(附属図書館) / 京都大学大学院理学研究科化学専攻 / (主査)教授杉山弘, 教授三木邦夫, 教授秋山芳展 / 学位規則第4条第1項該当 / Doctor of Science / Kyoto University / DGAM DNA-binding molecules Pyrrole-imidazole polyamides Gene expression Epigenetics Stem cell differentiation 400
800	Spectroscopic Studies of Adsorbed CO<sub>2</sub> on Polyamines and Photo-generated Electrons in Photocatalytic Synthesis Zhai, Yuxin January 2018 (has links) No description available. Technology Polymers Polymer Chemistry Organic Chemistry Molecules Molecular Chemistry Energy Chemical Engineering Chemistry

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