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C2- and C3-symmetric ligands via ring-opening of aziridinesLake, Fredrik January 2002 (has links)
This thesis deals with the design and synthesis of chiralenantiopure nitrogencontaining ligands and the use of theseligands in asymmetric catalysis. A modular synthetic approachto enantiopure nitrogen-containing ligands was developed. Thesynthetic method is based on the ring-opening of activatedchiral aziridines by nitrogen nucleophiles. The aziridines areconveniently prepared from amino alcohols. The structure oftheaziridine and of the nucleophile can be extensively varied andlibraries of ligands are easily prepared. The use of primaryamines affords C2-symmetric bis(sulfonamides), whereas the use ofammonia affords C3-symmetric tris(sulfonamides) that can beelaborated into the corresponding tetra-amines. The C2- and C3-symmetric ligands were used in the asymmetrictitaniummediated addition of diethylzinc to benzaldehyderesulting in modest enantioselection, 76% ee. A thoroughinvestigation of the reaction conditions revealed that theamount of Ti(OiPr)4has a decisive effect on the reaction rate and thestereochemical outcome of the reaction. The reaction timedecreased from about 90 hours to 15 minutes and theenantioselectivity changed from 26% of the (R)- enantiomer to72% of the (S)-enantiomer when the Ti(OiPr)4:benzaldehyde ratio was increased from 0.125:1 to1.48:1. Moreover, the titanium-mediated addition of diethylzincto benzaldehyde was studied in the presence of chiraladditives. The bis(sulfonamides) were also used in thecyclopropanation of cinnamyl alcohol. However, only lowenantioselection was observed, 27% ee. The C3-symmetric tetra-amines were reacted to formazaphosphatranes. These weak acids were only partiallydeprotonated by the strong base KOtBu to form the correspondingproazaphosphatranes. The unexpectedly strong basicity of theproazaphosphatranes was believed to be due to steric effects assuggested by DFT calculations. The tetra-amines and thesulfonamides were used for the preparation of metal complexesof Lewis acidic metals such as titanium(IV) andzirconium(IV). <b>Keywords:</b>asymmetric catalysis, aziridine, benzaldehyde,diethylzinc, enantioselective, ligand, proazaphosphatrane,ring-opening, sulfonamide, symmetry, titanium, zirconium
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Microbial Responses to Antibiotics – Stability of Resistance and Extended Potential of Targeting the Folate SynthesisJönsson, Maria January 2005 (has links)
Resistance to antimicrobials is an increasing problem in the world of today, and develops faster than man can counter. It is therefore of importance to study metabolic pathways in order to develop new antibiotics, but also to understand how resistance spreads and stabilizes in microbial populations. The commensal flora could be an important factor in the spread of antimicrobial resistance, as drugs aimed at other targets also hit the harmless commensal bacteria. If stable resistance develops in such a population, it could seriously impair a later treatment with the same drug. After a treatment with the macrolide clarithromycin, resistance to this antibiotic increased markedly in the untargeted throat flora, and resistance levels did not recede until at least one year later. Another example of stable resistance can also be seen in sulfonamide resistant Streptococcus pyogenes. Sequence determinations of the dihydropteroate synthase (dhps) gene conferring this resistance revealed a mosaic organisation implying that the it had been brought there by horizontal transfer. Molecular characterization of this gene showed that the sulfonamide resistance was due to mutations of structurally important amino acids in position 65 and 213. The folate synthesis pathway has potential for being exploited further as a drug target. One possible new drug target is hydroxymethyl-dihydropterin pyrophosphokinase (hppk). In the malaria parasite Plasmodium falciparum this enzyme is part of a polyfunctional entity, also encoding dhps. The HPPK part can be separated from DHPS, but that the opposite is not possible. The PfHPPK has two insertions: one also present in other plasmodia, and one apparently unique to P. falciparum. Both are crucial for enzyme activity. To further characterize HPPK, we developed a spectrophotometric activity assay and a method to measure substrate channelling of hydroxymethyl-dihydropterin diphosphate.
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C2- and C3-symmetric ligands via ring-opening of aziridinesLake, Fredrik January 2002 (has links)
<p>This thesis deals with the design and synthesis of chiralenantiopure nitrogencontaining ligands and the use of theseligands in asymmetric catalysis. A modular synthetic approachto enantiopure nitrogen-containing ligands was developed. Thesynthetic method is based on the ring-opening of activatedchiral aziridines by nitrogen nucleophiles. The aziridines areconveniently prepared from amino alcohols. The structure oftheaziridine and of the nucleophile can be extensively varied andlibraries of ligands are easily prepared. The use of primaryamines affords C<sub>2</sub>-symmetric bis(sulfonamides), whereas the use ofammonia affords C<sub>3</sub>-symmetric tris(sulfonamides) that can beelaborated into the corresponding tetra-amines.</p><p>The C<sub>2</sub>- and C<sub>3</sub>-symmetric ligands were used in the asymmetrictitaniummediated addition of diethylzinc to benzaldehyderesulting in modest enantioselection, 76% ee. A thoroughinvestigation of the reaction conditions revealed that theamount of Ti(OiPr)<sub>4</sub>has a decisive effect on the reaction rate and thestereochemical outcome of the reaction. The reaction timedecreased from about 90 hours to 15 minutes and theenantioselectivity changed from 26% of the (R)- enantiomer to72% of the (S)-enantiomer when the Ti(OiPr)<sub>4</sub>:benzaldehyde ratio was increased from 0.125:1 to1.48:1. Moreover, the titanium-mediated addition of diethylzincto benzaldehyde was studied in the presence of chiraladditives. The bis(sulfonamides) were also used in thecyclopropanation of cinnamyl alcohol. However, only lowenantioselection was observed, 27% ee.</p><p>The C<sub>3</sub>-symmetric tetra-amines were reacted to formazaphosphatranes. These weak acids were only partiallydeprotonated by the strong base KOtBu to form the correspondingproazaphosphatranes. The unexpectedly strong basicity of theproazaphosphatranes was believed to be due to steric effects assuggested by DFT calculations. The tetra-amines and thesulfonamides were used for the preparation of metal complexesof Lewis acidic metals such as titanium(IV) andzirconium(IV).</p><p><b>Keywords:</b>asymmetric catalysis, aziridine, benzaldehyde,diethylzinc, enantioselective, ligand, proazaphosphatrane,ring-opening, sulfonamide, symmetry, titanium, zirconium</p>
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Analytik, Vorkommen und Verhalten aromatischer Sulfonamide in der aquatischen UmweltHartig, Claudia. Unknown Date (has links)
Techn. Universiẗat, Diss., 2000--Berlin.
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INFLUENCE OF SODIUM SALTS ON THE SWELLING AND RHEOLOGY OF HYDROPHOBICALLY CROSSLINKED, NON-IONIC HYDROGELS DETERMINED BY QCM-DZhang, Mengxue 16 July 2019 (has links)
No description available.
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Sultam Synthesis Via Intramolecular C-H Amination of HydroxylaminesQuartus, Jasper Adam May 22 November 2021 (has links)
Nitrogen is a vital element for the existence of life, as shown by its frequent presence in essential biomolecules, and inclusion into valuable drugs. Sulfonamides and their heterocycle counterpart, sultams, are N-containing functional groups and metabolically stable amide isosteres. Sulfa drugs, which contain these moieties, have a broad spectrum of medical applications. The industrial value of sultams has prompted the development of novel methods for their synthesis, and metal-catalyzed C-H amination reactions with nitrene precursors have recently shown promise.
The current thesis presents a survey of conditions for benzo[d]sultam synthesis via intramolecular C-H amination of N-acyloxysulfonamides. Initially, using Ru(Bpy)3(PF6)2 as a photocatalyst and Et3N as a base enabled benzo[d]sultam formation by tertiary C-H amidation. The photoredox conditions were optimized to accommodate other 2,6-disubstituted-N-acyloxysulfonamides upon omission of the base, which consistently gave sulfonamide byproducts. Control reactions indicated that a thermal base-induced reaction was simultaneously occurring, both enabling productive C-H amidation and byproduct formation. Systematic optimization of base-induced conditions enabled sultam synthesis from 2,6-dialkyl- and tertiary ortho-monoalkyl-precursors in moderate yield, but sulfonamide formation still impeded the reaction.
An additional control reaction indicated that a thermal Ruthenium-catalyzed C-H amidation reaction was possible. Indeed, heating N-acyloxysulfonamides in the presence of Ru(Bpy)3(PF6)2 and in the absence of light and base enabled efficient C-H amidation, particularly with DCE as a solvent. A representative scope of 12 benzo[d]sultams was then synthesized including entries derived from ortho-monoalkyl-N-acyloxyarylsulfonamides.
Aside from optimizing an efficient reaction for the synthesis of benzo[d]sultams through the cyclization of N-acyloxyarylsulfonamides, including the challenging primary C-H amidation of orthomonomethyl-substrates, the unique reaction conditions developed in this thesis set precedent for future investigation of hydroxylamine derived nitrene precursors. The optimization and design of superior ruthenium catalysts could allow for more challenging C-H amination reactions with hydroxysulfonamide derivatives and similar N-oxy nitrene precursors.
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Iodo Containing Sulfone and Sulfonamide Based Poly(arylene ether)sConstandinidis, Fadwa G. 27 August 2013 (has links)
No description available.
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Tuning the Physical Properties of Poly(arylene ether)s Prepared from 3,5-Difluorobenzene SulfonamidesMitton, Renata 12 August 2015 (has links)
No description available.
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Thermal Properties of Poly(arylene ether)s Prepared from N,N-Dialkyl-2,4-DifluorobenzenesulfonamidesWaweru, James Kanyoko 20 December 2016 (has links)
No description available.
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Neighboring group participation of sulfonamido nitrogens observed towards the synthesis of selected bicyclic sulfamides having sulfur at the apex position. Efforts towards the total synthesis of massarilactone AProust, Nicolas 10 September 2008 (has links)
No description available.
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