Global ETD Search

1	Enantioselektivní syntéza fluorovaných organických sloučeniny za využití iminiové a enaminové katalýzy / Enantioselective synthesis of fluorinated organic compounds using iminium and enamine catalysis Hejnová, Monika January 2010 (has links) This diploma thesis deals with the scope of organocatalytic concept for the preparation of enantiomerically pure organic compounds, containing fluorine atom. Our attention was focused on the use of easily available α,β-unsaturated aldehydes and ketones as starting materials and commercially available secondary amines as catalysts. The first part of the work is dedicated to the enantioselective cyclization reaction of hydrazone (24) with cyclohex-2-enone (25). The second part describes a study of enantioselective nucleophilic addition of diethyl 2-fluoromalonate (31a) to α,β-unsaturated aldehydes (30) via enamine activation.
2	Developement [sic] of an analytical method for the analysis of quizalofop-p-tefuryl and its metabolite quizalofop in soybean by HPLC He, Peter Yunfeng, University of Western Sydney, Faculty of Informatics, Science and Technology, School of Science, Food and Horticulture January 2000 (has links) There is currently no published method for the analysis of the herbicide quizalofop-p-tefuryl or its matabolite quizalofop in biological matrices. Quizalofp-p-tefuryl is a relatively new herbicide with apparent low toxicity and is readily degraded. Its metabolite also has herbicide activity. Quizalofop-p-tefuryl is a aryloxyphenoxypropionate and is a post emergence herbicide used for pulses and vegetables. This work reports on a method for the analyses of this pesticide residue and its metabolite in soybean using HPLC on a C-18 column with UV detection at 332 nm. Several methods are tried including some involving the use of solid phase extractors like silica, Florisil and strong cationic exchange cartridges. The main method developed uses an extraction solvent hexane: acetone: acetic acid for extracting the quizalofop-p-tefuryl and quizalofop from the ground soybean. The extracts are then made alkaline with NaOH and this deprotonates the quizalofop separating it from the hexane phase which contains the quizalofop-p-tefuryl. The hexane phase is extracted with ACN and quizalofop-p-tefuryl partitions into this phase. The quizalof-p-tefuryl is repartitioned into a fresh diethyl ether: hexane phase by adding a large quantity of H2O and NaCL to the ACN layer. The organic phase is washed and evaporated to dryness before being made up to volume with ACN for direct analysis by UV detection or by derivatising it to methoxychloroquinoxaline for fluorescence detection. Using the method that directly detects the analytes, for quizalofop-p-tefuryl and quizalofop at spike levels, the method has average recoveries. The precision of recoveries for both compounds is about 9%. The method is fairly robust. Time of analysis per analyte is about 2 hrs. / Master of Science UV detection herbicide quizalofop hexane diethyl pulses vegetables pesticide toxicity
3	Determination of ethyl glucuronide and ethyl sulfate as human biomarkers of alcohol exposure in urine by liquid chromatography/electrospray tandem mass spectrometry with large volume injection / Hu, Yan. January 1900 (has links) Thesis (M.S.)--Oregon State University, 2010. / Printout. Includes bibliographical references (leaves 43-51). Also available on the World Wide Web.
4	Kinetic Studies For Dimethyl Ether And Diethyl Ether Production Varisli, Dilek 01 September 2007 (has links) (PDF) Fast depletion of oil reserves necessitates the development of novel alternative motor vehicle fuels. Global warming problems also initiated new research to develop new fuels creating less CO2 emission. Nowadays, dimethyl ether (DME) and diethyl ether (DEE) are considered as important alternative clean energy sources. These valuable ethers are produced by the dehydration reaction of methanol and ethanol, respectively, in the presence of acidic catalysts. Besides DEE, ethylene which is very important in petrochemical industry, can also be produced by ethanol dehydration reaction. In the first part of this study, the catalytic activity of tungstophosphoric acid (TPA), silicotungstic acid (STA) and molybdophosphoric acid (MPA), which are well-known heteropolyacids were tested in ethanol dehydration reaction. The activities of other solid acid catalysts, such as Nafion and mesoporous aluminosilicate, were also tested in the dehydration reaction of ethanol. In the case of DME production by dehydration of methanol, activities of STA, TPA and aluminosilicate catalysts were tested. Among the heteropolyacid catalysts, STA showed the highest activity in both ethanol and methanol dehydration reactions. With an increase of temperature from 180oC to 250oC, Ethylene selectivities increased while DEE selectivities decreased. Ethylene yield values over 0.70 were obtained at 250oC. The presence of water in the feed stream caused some reduction in the activity of TPA catalyst. Very high DME yields were obtained using mesoporous aluminosilicate catalyst at about 450oC. The surface area of heteropolyacids are very low and they are soluble in polar solvents such as water and alcohols. Considering these drawbacks of heteropolyacid catalysts, novel mesoporous STA based high surface area catalysts were synthesized following a hydrothermal synthesis route. These novel catalysts were highly stable and they did not dissolve in polar solvents. The catalysts containing W/Si ratios of 0.19 (STA62(550)) and 0.34 (STA82(550)) have BJH surface area values of 481 m2/g and 210 m2/g, respectively, with pore size distributions ranging in between 2-15 nm. These catalysts were characterized by XRD, EDS, SEM, TGA, DTA, DSC, FTIR and Nitrogen Adsorption techniques and their activities were tested in ethanol dehydration reaction. Calcination temperature of the catalysts was shown to be a very important parameter for the activities of these catalysts. Considering the partial decomposition and proton lost of the catalysts over 375oC, they are calcined at 350oC and 550oC before testing them in ethanol dehydration reaction. The catalysts calcined at 350oC showed much higher activity at temperature as low as 180oC. However, the catalysts calcined at 550oC showed activity over 280oC. Ethylene yield values approaching to 0.90 were obtained at about 350oC with catalysts calcined at 350oC. DEE yield past through a maximum with an increase in temperature indicating its decomposition to Ethylene at higher temperatures. However, at lower temperatures (&lt / 300oC) Ethylene and DEE were concluded to be formed through parallel routes. Formation of some acetaldehyde at lower temperatures indicated a possible reaction path through acetaldehyde in the formation of DEE. DRIFTS results also proved the presence of ethoxy, acetate and ethyl like species in addition to adsorbed ethanol molecules on the catalyst surface and gave additional information related to the mechanism. TP Chemical Engineering 155-156
5	Asymmetric Synthesis Of Norbornene Based 1,4-amino Alcohol Derivatives And Applications In Asymmetric Transformations Sunbul, Murat 01 June 2005 (has links) (PDF) The asymmetric synthesis of cis-1,4-aminoalcohols with norbornene backbone was performed starting with simple and cheap anhydride 30. Quinine-mediated desymmetrization of anhydride 30 with methanol resulted in (2S,3R)-(-)-cis-hemiester 31 (98% e.e.). Chemoselective amination with HMPTA and NH4OH followed by LAH reduction afforded (2S,3R)-(+)-36 and (2S,3R)-(-)-37, respectively. The amidoester (2S,3R)-(-)-32 was transformed into chiral ligand (2S,3R)-(-)-35 with Grignard reaction followed by LAH reduction. The chiral ligands (2S,3R)-(-)-35, (2S,3R)-(+)-36 and (2S,3R)-(-)-37 were subjected to asymmetric diethylzinc addition reaction to examine their effectiveness as chiral catalyst. Among these, chiral ligand 36 exhibited the highest enantioselectivity (88% e.e.) QD Organic Chemistry 241-441
6	Equilibrio liquido-vapor dos sistemas n-butanol : dimetilmalonato ou dietilmalonato as pressões de 100 e 200mmHg Ultchak, Flaviana Salles 04 June 2000 (has links) Orientador: Maria Alvina Krahenbuhl / Dissertação (mestrado) - Universidade Estadual de Campinas, Faculdade de Engenharia Quimica / Made available in DSpace on 2018-08-12T02:24:53Z (GMT). No. of bitstreams: 1 Ultchak_FlavianaSalles_M.pdf: 2164181 bytes, checksum: f1468bdd0cb3489326bd20f27ce9101c (MD5) Previous issue date: 2000 / Resumo: Dados de equilíbrio de fases são úteis no projeto e otimização de processos que envolvem separação de fases, como destilação e extração. Malonatos são substâncias orgânicas que atuam como importantes intermediários em várias reações, como na produção de tintas, fármacos, pesticidas e aromas. Mesmo assim, as propriedades físicas dos malonatos são escassas na literatura. Este trabalho tem como objetivo obter as curvas de equilíbrio líquido-vapor isobáricas para três sistemas: dimetilmalonato/n-butanol a 100 e 20OmmHg, dietilmalonato/n-butanol a 200mmHg. Foi utilizado um ebuliômetro de recirculação de fases, da marca comercial "Normag". As concentrações das fases líquidas e vapor foram obtidas por cromatografia gasosa. Observou-se que ocorria uma reação química durante os experimentos, mas que não impediu o desenvolvimento do trabalho. A consistência termodinâmica foi testada pelo método de van Ness-Fredenslund (1977) e os parâmetros de interação binária do coeficiente de atividade para os modelos Wilson, UNIQUAC e NRTL foram estimados pelo método da máxima verossimilhança de acordo com Stragevitch (1997). Apesar da reação química, os dados obtidos são consistentes de acordo com os critérios adotados, mas observou-se que com o aumento da ftação molar do malonato presente, a partir de 0,5, a qualidade dos dados foi prejudicada pela reação química / Abstract: Phase equilibrium data are useful in the project and optimization of process that inc1udes phases separation, such as distillation and extraction. Malonates are organic substances that participate as an important intennediate in production reactions, like as ink, pharmaceuticals, pesticides and ftagrances. However their properties are rare in scientific literature. In this work the isobaric curves ofvapor-liquid equilibrium were measured for three systems: (I) dimethyl malonate+l-butanol at 100 mmHg, (2) dimethyl malonate+l-butanol at 200 mmHg and (3) diethyl malonate+l-butanol at 200 mmHg. Each system was measured by means of an ebuliometer with phase circulation (NORMAG). The liquid and vapor phase concentration was obtained by gaseous chromatography. A chemical reaction was verified during the experiments, but it didn't impede the work development. The thermodynamic consistency of the data was tested using the van Ness-Fredenslund method (1977) and the binary interaction parameters ofthe activity coefficient for the WILSON, UNIQUAC and NRTL models were calculated by the Maximum Likelihood Method in agreement with Stragevitch (1997). However a reaction inside of the equipment occurred during the experimental measurements, the results were considered consistent in agreement with the adopted rules in this work, but was verified that the data quality was impaired by chemical reaction with the increase ofmolar ftaction ofthe malonate, after 0,5 / Mestrado / Desenvolvimento de Processos Químicos / Mestre em Engenharia Química Equilíbrio líquido-vapor Termodinâmica Butanol Diethyl-Dimethyl Malonates Liquid-vapor equilibrium Ebuliometer
7	Úskalí zastavování hydratace alkalicky aktivované strusky organickými látkami / Issues of stopping the hydration of alkali-activated slag using organic substances Chadima, Jan January 2021 (has links) This thesis deals with the stopping of hydration of alkali activated slag by organic solvents and investigates to what extent the selected organic solvent affects the results of the analyses. The solvents used were acetone, diethyl ether, ethanol, isopropanol and methanol, and this is because these are the most commonly used organic solvents in practice. Thermogravimetric analysis along with differential thermal analysis was used to assess the degree of influence of organic solvents on the alkali activated slag and Portland cement samples. Methanol and acetone affected the samples the most and the longer the sample was stored in the solvent, the more it reacted with the organic solvent. The adverse interaction of organic solvent was greatest for the Portland cement samples. Samples that were rinsed with diethyl ether prior to analysis had lower mass losses than samples that were not rinsed. In the case of alkali activated slag, it was found that the way in which the thermogravimetric results were affected by organic solvents was highly dependent on the activator used, with the smallest effect observed for Na2CO3 activation, while the largest effect was observed for NaOH activation at temperatures below 600 °C, and for higher temperatures for water glass activation.
8	Submillimeter wave/THZ technology and rotational spectroscopy of several molecules of astrophysical interest Medvedev, Ivan Romanovich 14 July 2005 (has links) No description available. submillimiter rotational THz Assignment spectroscopic assymetric rotor FASSST CAAARS diethyl ether oxiranecarbonitrile ethyl formate
9	Fotoquímica multifotônica em éter dietílico / Infrared multiphoton dissociation of diethyl ether Linnert, Harrald Victor 15 June 1984 (has links) Foi estudada a dissociação multifotônica do éter dietílico induzida por absorção de luz infravermelha, proveniente de um laser de CO2, tipo TEA.Na irradiação com a linha P(20) da banda 0001-0200 (1046 cm -1 ), os produtos observados por análise espectroscópica infravermelha e cromatografia em fase gasosa foram:H2,CO,CH4,C2H2,C2H4, C2H6, CH3CHO e C2H5OH.A eficiência de dissociação foi proporcional às pressões iniciais de éter a uma potência fixa e crescente em função da potência do laser a uma pressão fixa. A eficiência com relação ao comprimento de onda do laser seguiu aproximadamente o espectro de absorção I.V. do éter, sugerindo que a dissociação seja iniciada por um processo de absorção multifotônica ressonante. 0 estudo da variação do rendimento individual dos produtos em função da potência apresentou um comportamento crescente para todos os produtos, enquanto que a variação do rendimento individual dos mesmos em função da pressão inicial de éter para CO e CH4 foram crescentes e para C2H6, CH3CHO e C2H5OH foram decrescentes; o comportamento do C2H4 foi linear e quase constante, o que sugere que ele se forme por dissociação unimolecular do éter, enquanto que a formação de CO, CH4 e C2H6deve envolver processos colisionais. Na irradiação de misturas de éter com argônio, neônio, hidrogênio, hélio e N20, os rendimentos individuais absolutos cairam, possivelmente porque tais gases agem como desativadores de moléculas de éter excitadas pelo laser, por transferência de energia V-T. Adicionando-se ao éter um captador de radicais, no caso NO, foi verificado apenas um pequeno aumento no rendimento relativo de CH4 em detrimento do C2H6. Na irradiação o do sistema éter/oxigênio foi observada a quebra dielétrica do sistema, tratando-se este fenômeno de uma verdadeira combustão, uma vez que o processo todo é desencadeado com apenas um pulso do laser para pressões acima de 40,0 Torr de 02,sendo CO2o produto principal. Entretanto, abaixo do limiar de quebra dielétrica o rendimento individual dos produtos foi crescente com o aumento do número de pulsos e também em função do aumento da pressão de 02, exceto o etanol que neste último estudo decresceu. Neste caso, os produtos observados foram os mesmos que no éter puro, exceto pequena quantidade de CO2. Em síntese, o C2H4 e C2H5OH devem se formar da dissociação unimolecular do éter, ao passo que H2 , CO, CH4 , C2H2 , C2H6 e CH3CHO são obtidos, em sua maior parte, através de reações que envolvem processos colisionais, radicalares ou não. / The photodissociation of diethyl ether induced by infrared multiphoton absorption from focused radiation of a TEA CO2 laser was investigated. After irradiating with the P(20) line of the 0001-0200 band (1046 cm-1) the decomposition products were analyzed by IR spectroscopy and gas chromatography. Hydrogen, carbon monoxide, methane, ethylene, acetylene, ethane, acetaldehyde and ethanol were detected. The overall decomposition efficiency was proportional to the initial pressure for a fixed irradiation energy, and increases with pulse energy at constant sample pressure. The decomposition efficiency was also observed to be wavelength dependent and followed, roughly, the IR absorption spectrum profile suggesting a resonant multiphoton absorption initiated reaction. Individual product yields were found to increase by increasing pulse energies. The variation of the initial ether pressure showed increasing yields for CO and CH4, and decreasing yields for C2H6, CH3 CHO and C2H5OH. The C2H4 yield was almost constant with sample pressure, suggesting that it is formed through unimolecular decomposition, while the formation of CO, CH4 and C2H6 must involve collisional processes. The use of argon, helium, neon, hydrogen, and nitrous oxide as buffer gases decreases the absolute product yields, probably due to the deactivation of excited molecules via collisional V-T energy transfer. The use of a free radical scavenger, nitric oxide,indicated a small increase for CH4 yield and a decrease for C2H6. When irradiating ether/oxygen mixtures, a strong reaction initiated by dielectric breakdown was observed. This phenomenon occurs with one laser pulse when the oxygen pressure is above 40 Torr, and is practically a true combustion, resulting in the formation of CO2 as the major product and traces of CO. However, under the threshold for dielectric breakdown the products yields increase when increasing the number of pulses and 02 pressure. In this case the products are the same as in neat ether, except for small quantities of CO2. CO2 laser Diethyl ether Dietil éter Dissociação no infravermelho Fotoquímica Infrared dissociation Infrared radiation Laser de CO2 Photochemistry Radiação infravermelha
10	Coordination Polymerization Of Cyclic Ethers By Metal Xanthates And Carbamates Tas, Huseyin 01 September 2003 (has links) (PDF) Zinc xanthates are active catalysts in stereoregular polymerization of propylene oxide and markedly more stable than that of known classical stereoregular catalysts. But steric control of zinc xanthates is weaker. To find more effective catalyst systems the isopropyl xanthates of Cu, Pb, Ni, Fe, Al and Sn are investigated and only copper (Cu(isoPr)Xt) and tin (Sn(isoPr)Xt) isopropyl xanthates were appeared to be active, but Cu(isoPr)Xt yielded only low molecular weight product. Therefore Sn(isoPr)Xt system was investigated in detail in polymerization of propylene oxide (PO). Polymerization of PO with this catalyst produced two contrasting polymers / high molar mass, crystalline (K-polymer) and low molar mass (D-polymer). Formation of double bonds in D-polymer was thought to be due to as an anionic process. Polymerization reactions were studied by changing polymerization conditions and reacting catalyst with predetermined amount of water. It&amp / #8217 / s found that Sn(isoPr)Xt have considerably low efficiency than that of Zn(isoPr)Xt catalyst. The yield linearly increases by increasing catalyst concentration. The propagation is competed by termination or transfer process hence overall activation energy is negative. Some mechanistic features of this system was also discussed. The catalytical activity of carbamates in this field has also been reported, without any information about catalytical efficiency and stereoregularity of the process. Therefore zinc diethyl dithiocarbamate was also studied and found as an active catalyst in stereoregular polymerization but it showed weaker efficiency in the PO polymerization than that of Zn(isoPr)Xt catalyst (about 12 times weaker). QD Polymers, Macromolecules 380-388

Search results