Global ETD Search

91	Hybrid Solid-State Hydrogen Storage Materials Benge, Kathryn Ruth January 2008 (has links) This thesis investigates the chemistry of ammonia borane (NH3BH3) relevant to the development of hydrogen storage systems for vehicular applications. Because of its high hydrogen content and low molecular weight ammonia borane has the potential to meet stringent gravimetric hydrogen storage targets of gt;9 wt%. Two of the three moles of H2 in ammonia borane can be released under relatively mild conditions, with the highest gravimetric yield obtained in the solid-state. However, ammonia borane does not deliver sufficient H2 at practical temperatures and the products formed upon H2 loss are not amenable to regeneration back to the parent compound. The literature synthesis of ammonia borane was modified to facilitate large scale synthesis, and the deuterated analogues ND3BH3 and NH3BD3 were prepared for the purpose of mechanistic studies. The effect of lithium amide on the kinetics of dehydrogenation of ammonia borane was assessed by means of solid-state reaction in a series of specific molar ratios. Upon mixing lithium amide and ammonia borane, an exothermic reaction ensued resulting in the formation of a weakly bound adduct with an H2N...BH3-NH3 environment. Thermal decomposition at or above temperatures of 50eg;C of this phase was shown to liberate gt;9 wt% H2. The mechanism of hydrogen evolution was investigated by means of reacting lithium amide and deuterated ammonia borane isotopologues, followed by analysis of the isotopic composition of evolved gaseous products by mass spectrometry. From these results, an intermolecular multi-step reaction mechanism was proposed, with the rates of the first stage strongly dependent on the concentration of lithium amide present. Compounds exhibiting a BN3 environment (identified by means of solid-state sup1;sup1;B NMR spectroscopy) were formed during the first stage, and subsequently cross link to form a non-volatile solid. Further heating of this non-volatile solid phase ultimately resulted in the formation of crystalline Li3BN2 - identified by means of powder X-ray diffractometry. This compound has been identified as a potential hydrogen storage material due to its lightweight and theoretically high hydrogen content. It may also be amenable to hydrogen re-absorption. The LiNH2/CH3NH2BH3 system was also investigated. Thermal decomposition occurred through the same mechanism described for the LiNH2/NH3BH3 system to theoretically evolve gt;8 wt% hydrogen. The gases evolved on thermal decomposition were predominantly H2 with traces of methane detected by mass spectrometry. ammonia borane Hydrogen storage Hydrogen methylamine borane lithium amide 11B NMR solid-state NMR
92	Bispyridylamides as ligands in asymmetric catalysis Belda de Lama, Oscar January 2004 (has links) This thesis deals with the preparation and use of chiralbispyridylamides as ligands in metal-catalyzed asymmetricreactions. The compounds were prepared by amide formation usingdifferent coupling reagents. Bispyridylamides havingsubstituents in the 4- or 6- positions of the pyridine ringswere prepared by functional group interconversion of the 4- or6- halopyridine derivatives. These synthetic approaches provedto be useful for various types of chiral backbones. Pseudo C2-symmetric bispyridylamides were also synthesizedby means of stepwise amide formation. The compounds were used as ligands in themicrowave-accelerated Mocatalyzed asymmetric allylic alkylationreaction. Ligands having ð-donating substituents in the4-positions of the pyridine rings gave rise to products withhigher branched to linear ratio. The catalytic reaction, whichproved to be rather general for allylic carbonates with anaromatic substituent, was used as the key step in thepreparation of (R)-baclofen. The Mo-bispyridylamide catalystprecursor was studied by NMR spectroscopy. Bispyridylamide complexes of metal alkoxides were alsoevaluated in the asymmetric addition of cyanide to aldehydesand the metal complexes involved were studied by NMRspectroscopy and X-ray crystallography. Chiral diamines wereused as additives to study the ring opening of cyclohexeneoxide with azide, catalyzed by Zr(IV)-bispyridylamidecomplexes. Various bispyridylamides were attached to solid supports oforganic or inorganic nature. The solid-supported ligands wereused in Mo-catalyzed asymmetric allylic alkylation reactionsand in the asymmetric addition of cyanide to benzaldehyde. Keywords:asymmetric catalysis, chiral ligand, pyridine,amide, allylic alkylation, enantioselective, cyanation,ring-opening, chiral Lewis acid. asymmetric catalysis chiral ligand pyridine amide allylic alkylation enantioselective cyanation ring-opening chiral Lewis acid
93	The cellular processing of the endocannabinoid anandamide and its pharmacological manipulation Thors, Lina January 2009 (has links) Anandamide (arachidonoyl ethanolamide, AEA) and 2-arachidonoyl glycerol (2-AG) exert most of their actions by binding to cannabinoid receptors. The effects of the endocannabinoids are short-lived due to rapid cellular accumulation and metabolism, for AEA, primarily by the enzymes fatty acid amide hydrolase (FAAH). This has led to the hypothesis that by inhibition of the cellular processing of AEA, beneficial effects in conditions such as pain and inflammation can be enhanced. The overall aim of the present thesis has been to examine the mechanisms involved in the cellular processing of AEA and how they can be influenced pharmacologically by both synthetic natural compounds. Liposomes, artificial membranes, were used in paper I to study the membrane retention of AEA. The AEA retention mimicked the early properties of AEA accumulation, such as temperature-dependency and saturability. In paper II, FAAH was blocked by a selective inhibitor, URB597, and reduced the accumulation of AEA into RBL2H3 basophilic leukaemia cells by approximately half. Treating intact cells with the tyrosine kinase inhibitor genistein, an isoflavone found in soy plants and known to disrupt caveolae-related endocytosis, reduced the AEA accumulation by half, but in combination with URB597 no further decrease was seen. Further on, the effects of genistein upon uptake were secondary to inhibition of FAAH. The ability to inhibit the accumulation and metabolism of AEA was shared by several flavonoids (shown in paper III). In paper IV, the isoflavone biochanin A and URB597 had effects in vivo, in a model of persistent pain, effects decreased by the cannabinoid receptor 1 antagonist AM251. In paper VI, the cellular processing of the endocannabinoid metabolites following degradation was examined, a mechanism poorly understood. It was found that nitric oxide (NO) donors significantly increased the retention of tritium in cell membranes following incubation with either tritiated AEA or 2-AG. Further experiments revealed that the effect of NO donors mainly involves the arachidonate part of the molecules. Inhibition of FAAH completely reduced the effect of NO donors in cells with a large FAAH component, indicating that the effects were downstream of the enzyme. These results suggest that the cellular processing of endocannabinoids can be affected in a manner of different ways by pharmacological manipulation in vitro and that naturally occurring flavonoid compounds can interact with the endocannabinoid system. Endocannabinoid anandamide cellular processing pain flavonoids fatty acid amide hydrolase Pharmacology Farmakologi
94	Synthèse chimique et activité biologique d'une série de dérivés amides en position 7α de la testostérone Morin, Nathalie 08 1900 (has links) (PDF) En 2012, au Canada, il y a eu 26 500 hommes diagnostiqués avec un cancer de la prostate dont 4000 sont décédés. Il existe plusieurs traitements pour ce cancer, dont la chimiothérapie qui occasionne des effets secondaires importants et désagréables pour le patient. Pour contrer ces effets secondaires, un ciblage thérapeutique vers les cellules cancéreuses permettrait une action antitumorale plus précise et efficace. Le cancer de la prostate est hormono-dépendant dans 80 à 90 % des cas. Le projet consiste à trouver un nouveau moyen d'exploiter la 7α-allyl-testostérone pour fabriquer une série de composés originaux ayant un potentiel cytotoxique et/ou antiandrogénique. Dix nouveaux composés ont été synthétisés par une méthode originale à partir de la 7α-allyl-testostérone. La majorité de ces composés sont des amides obtenus avec des rendements globaux variant entre 4 % et 35 % sans optimisation. Tous les composés synthétisés ont été testés sur des cellules du cancer de la prostate hormono-dépendant (LNCaP) et hormono-indépendant (PC3). Certains composés ont montré une meilleure efficacité que le chlorambucil et l'acétate de cyprotérone. L'acide trans-4-(4-androstèn-17β-acétoxy-3-one-7α-yl)-but-2-ènoïque N-2-pyridyléthylamide (17) est le plus intéressant composé synthétisé avec son IC50 de 23,7 µM pour les cellules LNCaP et de 5,8 µM pour les cellules PC3. Avec cette activité, il possède une activité cytotoxique supérieure au chlorambucil (LNCaP : 52,1 µM et PC3 : 55,7 µM) sur les deux types de lignées cellulaires du cancer de la prostate. Certains de ces composés permettent d'envisager de nouvelles avenues de traitements contre les cancers de la prostate. De plus, la méthode de synthèse ouvre la voie à d'autres composés d'intérêt biologique dans le futur. ______________________________________________________________________________ MOTS-CLÉS DE L’AUTEUR : Synthèse, stéroïde, androgène, testostérone, cancer de la prostate, 7α-allyl-testostérone amide Amide Antiandrogène Cancer de la prostate Chimiothérapie Ciblage moléculaire Cytotoxine Synthèse chimique Testostérone
95	Biophysical Characterization of the Binding of Homologous Anthraquinone Amides to DNA Jackson Beckford, Shirlene R 07 August 2012 (has links) The synthesis of four homologous anthraquinones (AQ I-IV) bearing increasing lengths of polyethylene glycol (PEG) side chains and their binding to AT- and GC-rich DNA hairpins are reported. The molecules were designed such that the cationic charge is at a constant position and the ethylene glycol units chosen to allow significant increases in size with minimal changes in hydrophobicity. The mode and affinity of binding were assessed using circular dichroism (CD), nuclear magnetic resonance (NMR), surface plasmon resonance (SPR), and isothermal titration calorimetry (ITC). The binding affinity decreased as the AQ chain length increased along the series with both AT- and GC-rich DNA. ITC measurements showed that the thermodynamic parameters of AQ I-IV binding to DNA exhibited significant enthalpy-entropy compensation. The enthalpy became more favorable while the entropy became less favorable. The correlation between enthalpy and entropy may involve not only the side chains, but also changes in the binding of water and associated counterions and hydrogen bonding. The interactions of AQ I-IV with GC-rich DNA have been studied via molecular dynamics (MD) simulations. The geometry, conformation, interactions, and hydration of the complexes were examined. As the side chain lengthened, binding to DNA reduced the conformational space, resulting in an increase in unfavorable entropy. Increased localization of the PEG side chain in the DNA groove, indicating some interaction of the side chain with DNA, also contributed unfavorably to the entropy. The changes in free energy of binding due to entropic considerations (-3.9 to -6.3 kcal/mol) of AQ I-IV were significant. The kinetics of a homologous series of anthraquinone threading intercalators, AQT I-IV with calf thymus DNA was studied using the stopped-flow. The threading mechanisms of the anthraquinones binding to DNA showed sensitivity to their side chain length. Fitting of the kinetic data led to our proposal of a two step mechanism for binding of AQT I, bearing the shortest side chain, and a three step mechanism for binding of the three longer homologs. Binding involves formation of an externally bound anthraquinone-DNA complex, followed by intercalation of the anthraquinone for AQT I-IV, then isomerization to another complex with similar thermodynamic stability for AQT II-IV. Anthraquinone amide Polyethylene glycol DNA Hairpin Intercalate Molecular dynamics simulation Kinetics
96	Coordination Chemistry of Multidentate Pyrrolylaldiminate Ligands Lee, Pei-ying 21 July 2004 (has links) none Zirconium phosphorous ylide. imine Schiff Base pyrrole amide Magnesium Manganse chelate Alumium Nickel Hafnium
97	Millisecond H/D Exchange Combined with Electrospray Ionization Mass Spectrometry to Study Protein¡¦s Structure Lin, Hsuan-Chung 03 August 2004 (has links) none FD-ESI/MS amide hydrogen ESI Protein structure MS/MS H/D exchange
98	Millisecond H/D Exchange Combined with Electrospray Ionization Mass Spectrometry to Study Three Dimensional Structure of Protein Huang, Ming-Wei 23 June 2003 (has links) none Protein structure FD-ESI/MS H/D exchange amide hydrogen ESI
99	Bispyridylamides as ligands in asymmetric catalysis Belda de Lama, Oscar January 2004 (has links) <p>This thesis deals with the preparation and use of chiralbispyridylamides as ligands in metal-catalyzed asymmetricreactions.</p><p>The compounds were prepared by amide formation usingdifferent coupling reagents. Bispyridylamides havingsubstituents in the 4- or 6- positions of the pyridine ringswere prepared by functional group interconversion of the 4- or6- halopyridine derivatives. These synthetic approaches provedto be useful for various types of chiral backbones. Pseudo C<sub>2</sub>-symmetric bispyridylamides were also synthesizedby means of stepwise amide formation.</p><p>The compounds were used as ligands in themicrowave-accelerated Mocatalyzed asymmetric allylic alkylationreaction. Ligands having ð-donating substituents in the4-positions of the pyridine rings gave rise to products withhigher branched to linear ratio. The catalytic reaction, whichproved to be rather general for allylic carbonates with anaromatic substituent, was used as the key step in thepreparation of (R)-baclofen. The Mo-bispyridylamide catalystprecursor was studied by NMR spectroscopy.</p><p>Bispyridylamide complexes of metal alkoxides were alsoevaluated in the asymmetric addition of cyanide to aldehydesand the metal complexes involved were studied by NMRspectroscopy and X-ray crystallography. Chiral diamines wereused as additives to study the ring opening of cyclohexeneoxide with azide, catalyzed by Zr(IV)-bispyridylamidecomplexes.</p><p>Various bispyridylamides were attached to solid supports oforganic or inorganic nature. The solid-supported ligands wereused in Mo-catalyzed asymmetric allylic alkylation reactionsand in the asymmetric addition of cyanide to benzaldehyde.</p><p><b>Keywords:</b>asymmetric catalysis, chiral ligand, pyridine,amide, allylic alkylation, enantioselective, cyanation,ring-opening, chiral Lewis acid.</p> asymmetric catalysis chiral ligand pyridine amide allylic alkylation enantioselective cyanation ring-opening chiral Lewis acid
100	Hydrogen Storage in Hypercrosslinked Polystyrene and Li-Mg-N-H Complex Hydride Demirocak, Dervis Emre 01 January 2013 (has links) In this dissertation, hydrogen storage enhancement in hypercrosslinked polystyrene, effects of single walled carbon nanotubes (SWCNTs) supported ruthenium (Ru) catalyst on the kinetics and ammonia suppression in the LiNH2-MgH2 complex hydride system and the accuracy of hydrogen storage measurements are investigated in detail. High surface area physisorption materials are of interest for room temperature hydrogen storage enhancement by spillover. Six different commercially available hypercrosslinked polystyrenes are screened by considering the specific surface area, average pore size, pore volume, and adsorption enthalpy. MN270 is selected mainly due to its high surface area and narrow pores for investigation of the spillover enhancement at room temperature. Two different platinum (Pt) doped MN270 samples are prepared by wet impregnation (MN270-6wt%Pt) and bridge building technique (MN270-bridged) with an average Pt particle size of 3.9 and 9.9nm, respectively, as obtained from X-ray diffraction analysis. Pt doping altered the surface property of MN270, and reduced the nitrogen and hydrogen uptake at 77 K and 1 atm due to pore blocking. The room temperature hydrogen uptake at 100 atm demonstrated a 10% enhancement for the MN270-bridged (0.36 wt. %) compared to the pristine MN270 (0.32 wt. %), but did not show any enhancement for the MN270-6wt%Pt under the same conditions. The hydrogen uptake of MN270-bridged has little value for practical applications; however, it showed the effectiveness of the bridge building technique. The LiNH2 - MgH2 (2:1.1) complex metal hydride system (Li-Mg-N-H), which is prepared by high energy ball milling, is investigated in terms of the hydrogen ab/desorption kinetics and the concomitant NH3 emission levels. By selecting more intense ball milling parameters, the hydrogen ab/desorption kinetics were improved and the NH3 emission reduced. However, it is shown that NH3 emission cannot be completely eliminated by ball milling. The hydrogen desorption kinetics of the Li-Mg-N-H system is much faster than the absorption kinetics at a specific T and P, but the desorption kinetics degraded considerably over a number of cycles as opposed to the stabilized absorption kinetics. Furthermore, SWCNTs and 20 wt. % Ru doped SWCNTs (SWCNT-20Ru) are utilized as catalysts to study their effects on NH3 emission and kinetics characteristics of the Li-Mg-N-H system. The SWCNT doped sample did not show any kinetics improvement, whereas the SWCNT-20Ru doped sample showed similar kinetics performance as that of the base sample. More importantly, the presence of SWCNT increased the NH3 emission as compared to the base sample. On the other hand, SWCNT-20Ru doping reduced the NH3 emission compared to the SWCNT doping, but did not eliminate it completely. As revealed from the mass spectrometry signals, the SWCNT-20Ru catalyst starts to decompose NH3 at a temperature as low as 200°C. However, an optimal catalyst still needs to be developed by fine tuning the Ru particle size and the SWCNT structural properties to maximize its effectiveness to suppress NH3 release in the Li-Mg-N-H system. The design of a volumetric measurement apparatus is studied by means of an uncertainty analysis to provide guidelines for optimum hydrogen sorption measurements. The reservoir volume should be as small as possible (i.e., 10 cc) to minimize the uncertainty. In addition, the sample mass loading has a profound effect on the uncertainty and the optimum loading is a function of the sample's intrinsic storage capacity. In general, the higher the sample mass loading the lower is the uncertainty, regardless of any other parameters. In cases where the material to be tested is not available in gram quantities, the use of high accuracy pressure and temperature transducers significantly mitigates the uncertainty in the sample's hydrogen uptake. Above all, the thermal equilibration time is an important parameter for high accuracy measurements and needs to be taken into consideration at the start of the measurements. Based on computational analysis, a 5 min wait time is required for achieving thermal equilibrium when the instrument enclosure temperature is different than the ambient temperature. hydrogen storage measurements lithium amide magnesium hydride porous polymers spillover Oil, Gas, and Energy

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