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Reinventing Aromatic Substitution: A Novel LookNguyen, Quang 01 August 2013 (has links)
Electrophilic aromatic substitution (EAS) and directed ortho-metalation (DoM) involve the direct substitution of an arene hydrogen. A major drawback involving EAS is the necessity for harsh forcing conditions for the reaction to proceed. Catalysts such as Lewis acids FeBr3 and AICI3 for the introduction of halogens and acyl groups, respectively, are each highly toxic and corrosive. Textbook preparations of aryl iodides classicaly involved the use of iodine and nitric acid. This approach affords only modest yields and does not provide regiospecific substitution of most substituted aromatics because most contain ortho/para directors which afford mixtures of isomers. The novelty of our procedure for the synthesis of the iodinated aromatics is twofold in that regiospecific para-iodination is observed and hydrocarbon media are utilized. Hydrocarbon media are less hazardous and greener than media used for halogenations reported in literature. This procedure always yields derivatives regiospecifically substituted para to an electron donating substituent. Moreover, this method eliminates the need to use hazardous oxidative catalysts. DoM is a reaction regiospecifically substitute an arene hydrogen at the ortho position. The media used in DoM reactions are less hazardous than those required for a variety of EAS reactions. The only problem for this reaction is use of extremely strong bases, alkyllithium reagents, which are known to be air and water sensitive. However, the DoM reaction does eliminate the need to separate ortho/para isomer mixtures so that only a single product is generated. The metalation yields predominantly products regiospecifically substituted ortho-to the direcing metalating group (DMG). With our deficiency catalysis concept and subsequent purificaion methods, relatively pure ortho-lithiated intermediates have been prepared. The study of catalysts/promoters on the derivatization of these intermediates is anticipated to be extremely insightful. For this study, we have shown that highly selective, efficient ortho-lithiation can be achieved by deficiency catalysis utilizing n-BuLi as the only strong metalating base.
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Synthesis Of 4-iodopyrazole DerivativesYazici, Ceyda 01 August 2008 (has links) (PDF)
Pyrazoles have been studied for over a century as an important class of
heterocyclic compounds and continue to attract considerable interest due to the
broad range of biological activities they possess. The electrophilic cyclization of
the acetylenic hydrazones initiated by molecular iodine could provide new ways of
synthesizing biologically active 4-iodopyrazole derivatives, which are important
precursors for the synthesis of highly substituted pyrazole derivatives. For this
reason, we investigated the synthesis of 4-iodopyrazole derivatives, such as 1-aryl-
5-alkyl/aryl-4-iodopyrazoles, starting from phenylhydrazine and ,-acetylenic
aldehyde derivatives. Initially, ,-acetylenic aldehydes were synthesized by
formylation reaction of corresponding alkynes with DMF. Then, hydrazone
derivatives of these aldehydes were prepared by heating them with
phenylhydrazine in a neat manner at 55 ° / C for 5 h. Finally, acetylenic phenyl
hydrazone derivatives were subjected to electrophilic cyclization by treating with
excess molecular iodine at 80 ° / C for 3 h. Although electrophilic cyclization is
commonly used in organic chemistry, it has not been employed for the cyclization
of acetylenic phenyl hydrazones to pyrazole derivatives. Under optimized
conditions, these reactions afforded 1-aryl-5-alkyl/aryl-4-iodopyrazole derivatives in moderate to good yields as the single or the major product of the reactions. In
some cases, 1-aryl-5-alkyl/arylpyrazole derivatives resulted from these reactions as
minor products. In conclusion, 4-iodopyrazole derivatives were synthesized for the
first time directly from acyclic starting materials, ,-acetylenic phenylhydrazones
and iodine, via electrophilic cyclization.
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Synthesis Of Ferrocenyl Substituted Pyrazoles By Sonogashira And Suzuki-miyaura Cross-coupling ReactionsKarabiyikoglu, Sedef 01 July 2010 (has links) (PDF)
Pyrazoles constitute one of the most important classes of heterocyclic compounds due to their interesting chemical and biochemical features. Researchers have studied many pyrazole containing structures for almost over a century in order to investigate the various biological activities possessed by these molecules. A new and important trend in these studies is to produce ferrocenyl substituted pyrazoles since ferrocene attracts considerable interest in the research field of organometallic and bioorganometallic chemistry because of its valuable chemical characteristics like high stability, low toxicity and enhanced redox properties. Moreover, the results of the studies focusing on ferrocenyl compounds have been quite promising. Therefore, the scope of this project involves the combination of the essential structural features of pyrazoles with a ferrocene moiety, which could provide new derivatives with enhanced biological activities. In the course of the project the synthesis of new pyrazole derivatives was performed through Sonogashira and Suzuki-Miyaura cross-coupling reactions of 5-ferrocenyl-4-iodo-1-phenyl-1H-pyrazole with terminal alkynes and boronic acids respectively in the presence of a catalytic amount of PdCl2(PPh3)2. Although Sonogashira and Suzuki-Miyaura coupling reactions are well known in literature, they were not studied in much detail with multi-substituted pyrazoles. This also revealed the requirement of the reinvestigation of the reactions and improvement of the yields of pyrazoles by optimizing the reaction conditions.
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Development Of New Methods For The Synthesis Of Pyrazoles, 4-iodopyrazoles, Isoxazoles And 1,2,4-oxadiazolesKivrak, Arif 01 January 2011 (has links) (PDF)
Synthesis of five-membered heteroaromatic compounds such as pyrazoles, isoxazoles and 1,2,4-oxadiazoles are important for pharmaceutical industry and material science due to their applications. Although there are many methods to prepare such compounds, new variants continue to appear since they exhibit a wide range of biological and medicinal activities.
In this thesis, new methods were developed for the synthesis of 4-iodopyrazoles, pyrazoles, isoxazoles, 1,2,4-oxadiazoles and/or 1,2,4-oxadiazepines. In the first part of the study, electrophilic cyclization of &alpha / ,&beta / -alkynic hydrazones by molecular iodine and copper iodide were investigated as new ways for the synthesis of 4-iodopyrazoles and pyrazoles, respectively. Initially, &alpha / ,&beta / -alkynic hydrazones were prepared by the reactions of propargyl aldehydes and ketones with hydrazines. Then &alpha / ,&beta / -alkynic hydrazones were treated with molecular iodine in the presence of NaHCO3, which afforded 4-iodopyrazoles in good to excellent yields. Subsequently, the same reactions were carried out with CuI in the presence of NEt3, which furnished corresponding pyrazoles in good yields. Moreover, ferrocenyl-substituted 4-iodopyrazoles and pyrazole derivatives were synthesized from corresponding
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Synthesis Of 4-phenylselenyl-1h-pyrazoles By Electrophilic CyclizationDemirci, Deniz 01 January 2011 (has links) (PDF)
In this study, the synthesis of 5-ferrocenyl/aryl-4-(phenylselenyl)-1H-pyrazole derivatives was investigated since the integration of ferrocenyl and selenium moieties into pyrazole derivatives may increase their current biological activities. Initially, the starting propargyl aldehydes were synthesized from corresponding acetylenes. Subsequently, propargyl aldehydes were reacted with hydrazines to yield corresponding hydrazones. Then the in situ synthesized hydrazones were subjected to electrophilic cyclization with phenylselenyl chloride, which afforded 5-ferrocenyl/aryl-4-(phenylselenyl)-1H-pyrazoles in one-pot manner. Subsequently, reaction conditions were optimized in terms of electrophile, base, temperature and solvent. Best results were obtained with phenylselenyl chloride and NaHCO3 at room temperature in DCM for ferrocenyl substituted pyrazoles and DCE for aryl substituted pyrazoles. In summary, by employing the electrophilic cyclizations of in situ synthesized acetylenic hydrazones, a variety of 5-ferrocenyl/aryl-4-(phenylselenyl)-1H-pyrazole derivatives were synthesized in one-pot way in moderate to good yields.
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Theoretical Studies Of pie-Facial Selectivity In Organic ReactionsGanguly, Bishwajit 10 1900 (has links)
he thesis entitled "Theoretical Studies of pie-Facial Selectivity in Organic Reactions" involve a computational examination of a suitable reactivity problem in organic chemistry. Systematic and efficient -procedures have been developed and tested for rationalizing observed face selectivities in numerous substrates. In a number of cases precise transition state structures have also been computed in a rigorous manner. The molecules examined are by and large sterically unbiased. Considerable emphasis has been placed on obtaining general interpretations, In particular, the relative contributions of various sterio electronic and electrostatic effect have been considered in detail.Predictions of a-face selectivities haw also been made in a few cases.
In recent years many mildly perturbed substrates have been shown to undergo pie-face selective reactions. Chapter 1 provides a brief review of the available experimental result involving nucleophilic, electrophilic, radical and Diels- Alder reactions.The current status of theoretical understanding of theae rasults is also summarized.The discussion includes qualitative proposal as well as quantitative calculations on selected substrates. The principal goals of the present work and general features of the MO methods used are briefly discussed.
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Transkriptionelle Regulation des pflanzlichen Detoxifikationsprogramms durch das GRAS-Protein SCL14 / Transcriptional regulation of the plant detoxification program by the GRAS-protein SCL14Meier, Alexander 20 October 2014 (has links)
No description available.
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Ciclização eletrofílica de compostos β-enamino carbonílicos e β-dicarbonílicos / Electrophilic cycling of β-enamino-carbonyl and β-dicarbonyl compoundsMarta Regina dos Santos Nunes 11 October 2002 (has links)
Esta tese consiste do estudo de reações de ciclofuncionalização de compostos β-enamino carbonílicos e β-dicarbonílicos, contendo uma cadeia alquenílica nas posições α ou γ. Os eletrófilos empregados para este fim foram: iodo, brometo de fenilselenenila e tricloreto de p-metóxifeniltelurio. Os iodo-β-enamino ésteres e cetonas cíclicas, após desidroiodação mediada por base, levaram à formação dos correspondentes pirróis, indóis e aminobenzofuranos. A ciclização dos β-ceto ésteres e β-dicetonas levou a enol éteres e benzofuranos funcionalizados. Estes resultados, juntamente com outros obtidos em nosso grupo de pesquisa, foram utilizados em um estudo comparativo entre reagentes de iodo, selênio e telúrio frente a reações de ciclização eletrofílica de substratos β-dicarbonílicos. / This thesis presents a study of the cyclofunctionalization of β-enamino carbonyl and β-dicarbonyl compounds, substituted by an alkenyl group at the α or γ positions. Iodine, phenyl-selenenyl bromide and p-methoxyphenyltellurium trichloride were employed as the electrophilic reagent. The cyclic iodo-β-enamino esters and ketones, after base-promoted dehydroiodination, led to the corresponding pyrroles, indoles and aminobenzofurans. The cyclization of the β-keto esters and β-diketones afforded five- and six-membered enol ethers and benzofuranones. These results, together with others previously obtained in our research group, allowed us to compare the behavior of the three above mentioned electrophiles toward the cyclofunctionalization of β-dicarbonyl substrates.
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Síntese de derivados do bisabolol através de reações de heterociclização intramolecular promovidas por calcogenetos de organoíla / Intramolecular cyclization of alfa-bisabolol promoted by arylselenyl halides or arylthionyl halidesMelo, Diêgo de 07 March 2017 (has links)
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Previous issue date: 2017-03-07 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior - CAPES / This work describes a practical method for intramolecular heterocyclization of the (-)-α-bisabolol to obtain cyclic arylselenoethers and arylthioethers. The electrophilic cyclization addition is promoted by arylselenenyl bromide (ArSeBr) and arylsulfenyl chloride (ArSCl) through electrophilic addition across the terminally disubstituted double bond of the alfa-bisabolol.
The cyclization reaction preceeded cleanly and smoothly under mild reaction conditions and provided the cyclic arylselenoethers and arylthioethers with 71% and 47% of yield respectively, employing pyridine as addictive under inert atmosphere. The methodology showed to be highly regioselective since the tetrahydrofuranes were obtained as unique products, presumably because of electronic and conformational factors.
It is well known that cyclic ethers are present in the skeletons of several groups of natural compounds exhibiting important biological activities. / Este trabalho descreve um método simples para a heterociclização Intramolecular do (-)-α-bisabolol para obtenção de ariltioeteres e arilselenoeteres cíclicos. A ciclização eletrofílica é promovida por brometo de arilselenenila (ArSeBr) e cloreto de arilsulfenila (ArSCl) através da adição eletrofílica na dupla ligação terminal dissubstituída do (-)-α-bisabolol
A reação de ciclização procedeu-se sob condições brandas fornecendo arilselenoeteres e ariltioeteres cíclicos com 71% e 47% de rendimento respectivamente, empregando piridina como aditivo, em atmosfera inerte. A metodologia mostrou-se altamente regiosseletiva, uma vez que se obteve como produto principal somente tetrahidrofuranos organocalcogeno funcionalizados em consequência de fatores eletrônicos e conformacionais.
Adicionalmente, sabe-se que, os éteres cíclicos estão presentes nos esqueletos de vários grupos de compostos naturais, apresentando importantes atividades biológicas.
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Theoretical Studies Of II-Facial Selectivity In Sterically Unbiased SystemsKalyanaraman, P 09 1900 (has links) (PDF)
No description available.
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