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Síntese e funcionalização de compostos organoenxofre: sulfóxidos, sulfetos e N-sulfinil iminas / Synthesis and functionalization of organosulfur compounds: sulfoxides, sulfides and N-sulfinyl iminesSouza, Frederico Bernardes de 22 September 2017 (has links)
Neste trabalho promovemos a síntese de sulfóxidos vinílicos ?-substituídos através da reação de acoplamento cruzado de Suzuki-Miyaura. Também foi feita a síntese de sulfóxidos enínicos inéditos, pela adição do nucleófilo no carbono β-sulfóxido. Esses compostos eram passíveis de serem submetidos a reação de rearranjo de Pummerer aditivo e assim gerarem uma pequena biblioteca de compostos α-tioaldeídos. Um desses aldeídos sintetizados foi empregado na reação de formação de uma imina propargílica, com consequente reação de CuAAC formando iminas triazólicas. Outras iminas arílicas foram sintetizadas, passando por uma etapa de redução, com intuito de se obter a amina livre, para que fosse feita a reação de ciclização com auxílio de um agente eletrofílico. Outra classe de composto organoenxofre foi sintetizada, as N-sulfinil imina, que após a reação de acoplamento cruzado de Sonogashira, com consequente remoção de um grupo protetor e a formação do anel heterocíclico, foram obtidos compostos triazólicos N-sulfinil imínicos. / In this work we promote the synthesis of α-substituted vinylic sulfoxides through the Suzuki-Miyaura cross coupling reaction. Also the synthesis of unpublished enynic sulfoxides was made, by the addition of the nucleophile in the β-sulfoxide carbon. These compounds were susceptible to additive Pummerer rearragement reaction and thus generated a small library of compounds. One of these aldehydes synthesized was used in the formation reaction of a propargyl imine, with consequent CuAAC reaction, forming triazol imines. Other aryl imines were synthesized, undergoing a reduction step, in order to obtain the free amine, so that the cyclization reaction was carried out with the aid of an electrophilic agent. Another class of organosulfur compound was synthesized, the N-sulfinyl imine, which after the Sonogashira cross-coupling reaction, with consequent removal of a protecting group and formation of the heterocyclic ring, N-sulfinyl imine triazolic compounds were obtained.
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Síntese e funcionalização de compostos organoenxofre: sulfóxidos, sulfetos e N-sulfinil iminas / Synthesis and functionalization of organosulfur compounds: sulfoxides, sulfides and N-sulfinyl iminesFrederico Bernardes de Souza 22 September 2017 (has links)
Neste trabalho promovemos a síntese de sulfóxidos vinílicos ?-substituídos através da reação de acoplamento cruzado de Suzuki-Miyaura. Também foi feita a síntese de sulfóxidos enínicos inéditos, pela adição do nucleófilo no carbono β-sulfóxido. Esses compostos eram passíveis de serem submetidos a reação de rearranjo de Pummerer aditivo e assim gerarem uma pequena biblioteca de compostos α-tioaldeídos. Um desses aldeídos sintetizados foi empregado na reação de formação de uma imina propargílica, com consequente reação de CuAAC formando iminas triazólicas. Outras iminas arílicas foram sintetizadas, passando por uma etapa de redução, com intuito de se obter a amina livre, para que fosse feita a reação de ciclização com auxílio de um agente eletrofílico. Outra classe de composto organoenxofre foi sintetizada, as N-sulfinil imina, que após a reação de acoplamento cruzado de Sonogashira, com consequente remoção de um grupo protetor e a formação do anel heterocíclico, foram obtidos compostos triazólicos N-sulfinil imínicos. / In this work we promote the synthesis of α-substituted vinylic sulfoxides through the Suzuki-Miyaura cross coupling reaction. Also the synthesis of unpublished enynic sulfoxides was made, by the addition of the nucleophile in the β-sulfoxide carbon. These compounds were susceptible to additive Pummerer rearragement reaction and thus generated a small library of compounds. One of these aldehydes synthesized was used in the formation reaction of a propargyl imine, with consequent CuAAC reaction, forming triazol imines. Other aryl imines were synthesized, undergoing a reduction step, in order to obtain the free amine, so that the cyclization reaction was carried out with the aid of an electrophilic agent. Another class of organosulfur compound was synthesized, the N-sulfinyl imine, which after the Sonogashira cross-coupling reaction, with consequent removal of a protecting group and formation of the heterocyclic ring, N-sulfinyl imine triazolic compounds were obtained.
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Methods in organosilane assemblyBo, Yingjian January 2012 (has links)
Dialkylsilanediols are a novel class of non-hydrolyzable analogues of the tetrahedral intermediate of amide hydrolysis, shown to be good inhibitors of HIV-1 protease, angiotensin converting enzyme (ACE), and thermolysin. An impediment to utilization of these silanediol structures, however, has been the methods for their assembly. This research describes the reductive lithiation of hydridosilanes and alkoxysilanes, and the use of the resulting silyl anions to develop efficient methods to synthesize silanediol precursors. In the first part of research, lithiation of hydridosilanes was studied. As part of this study, a simple 1H NMR method was developed for monitoring and analyzing the progress of lithiation. In addition, this method was converted to a titration for silyllithium reagents using BHT as an internal standard. Silanediols 107 and 177 are analogues of a potent chymase inhibitor, NK-3201 (82). In the second part, diphenylsilanes 108 and 170, precursors to silanediols 107 and 177, were synthesized using addition of silyllithium to sulfinimine 113 as a key step. In the third part, lithiation of alkoxysilanes was studied. (Si,O)-Dianions, generated from lithiation of silane alcohol 175 or 2,2-diphenyl-1-oxa-2-silacyclopentane (225), were reacted with a wide variety of electrophiles to give potentially useful silicon-containing building blocks. Addition of the (Si,O)-dianion 284 to sulfinimines gave silanediol inhibitor precursors with full control of stereochemistry. In the last part, a new method featuring 1,1-diphenyl-2-azaallyllithium chemistry were utilized to synthesize a series of protected α-amino silanes 323, 329 - 331. / Chemistry
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