1 |
Química de alcaloides carbazólicos: síntese de Claurailas e de biblioteca de análogos estruturais / Carbazole alkaloids chemistry: synthesis of Claurailas and library of analoguesFumagalli, Fernando 17 April 2015 (has links)
Compostos heterociclos estão muito presentes em nossas vidas, desde processos biológicos até em fármacos. Dentre esses compostos, os carbazóis, vem ultimamente se mostrando promissores como alternativa terapêutica para diversas doenças, principalmente para o câncer. Muitos carbazóis são produtos naturais, como é o caso das Claurailas A-D. Baseando-se na estrutura da Clauraila A, esse trabalho propôs o desenvolvimento de uma biblioteca de análogos desse alcaloide a fim de prospecção biológica. Para a síntese da Clauraila A foram estudadas condições ideais da ciclodeidrogenação da diarilamina precursora desse alcaloide, através da reação de Åkermark-Knölker. Para a obtenção dessa diarilamina, foi realizado uma otimização da reação de aminação de Buchwald-Hartwig. Com o processo otimizado, foram obtidos diversos carbazóis, com diferentes padrões de substituição, em rendimentos bons à moderados, entre eles estão os produtos naturais 6-metoximurraianine e Clausenal. O rendimento global obtido na síntese desses produtos naturais e da Clauraila A são semelhantes aos previamente descritos na literatura, no entanto, em nosso trabalho foi realizada a síntese deste alcaloide em número reduzido de etapas. Durante o processo de otimização da reação de Åkermark-Knölker foi demonstrado, pela primeira vez, o uso de acetilacetonato de paládio como fonte de paládio II alternativa ao acetato de paládio. Além disso, com esses resultados foi possível inferir o possível mecanismo dessa reação. Adicionalmente, após tentativas por diversas alternativas sintéticas, foram obtidos compostos dimetilcromenos a partir de aminofenóis utilizando prenal e ácido fenilborônico, que podem ser úteis na síntese de outros carbazóis, como a Clauraila B. / Heterocyclic molecules are very important class of compounds in biological processes and drugs designing. Among all of them, carbazoles show great applicability for treatment of several diseases, especially against cancer. Many carbazoles are natural products, and one of our interests is Clauraila A. This work is based on the Clauraila A structure to development of a library of carbazoles for biological applications. The optimal conditions of the Åkermark-Knölker cyclodehydrogenation of diarylamine was studied to obtaind the carbazole core. The diarylamines were obtained by the optimized Buchwald-Hartwig amination reaction. This synthetic strategy was used to obtain the range of carbazoles, with different substituents in good and moderate yields, including natural products 6-methoxymurrayanine and Clausenal. The overall yield obtained in the synthesis of the natural products were similar to those previously described in the literature, however, unlike the literature our synthesis involved a reduced number of steps to obtain the desired product. In the optimization step of Åkermark-Knölker reaction, we first applied palladium (II) acetylacetonate instead of palladium (II) acetate. Moreover, with the achieved results the possible mechanism of this reaction was proposed. Additionally, after several attempts, dimethylchromenos were obtained from aminophenols using prenal and phenylboronic acid, which will be useful in the synthesis of other carbazoles, such as Clauraila B.
|
2 |
Química de alcaloides carbazólicos: síntese de Claurailas e de biblioteca de análogos estruturais / Carbazole alkaloids chemistry: synthesis of Claurailas and library of analoguesFernando Fumagalli 17 April 2015 (has links)
Compostos heterociclos estão muito presentes em nossas vidas, desde processos biológicos até em fármacos. Dentre esses compostos, os carbazóis, vem ultimamente se mostrando promissores como alternativa terapêutica para diversas doenças, principalmente para o câncer. Muitos carbazóis são produtos naturais, como é o caso das Claurailas A-D. Baseando-se na estrutura da Clauraila A, esse trabalho propôs o desenvolvimento de uma biblioteca de análogos desse alcaloide a fim de prospecção biológica. Para a síntese da Clauraila A foram estudadas condições ideais da ciclodeidrogenação da diarilamina precursora desse alcaloide, através da reação de Åkermark-Knölker. Para a obtenção dessa diarilamina, foi realizado uma otimização da reação de aminação de Buchwald-Hartwig. Com o processo otimizado, foram obtidos diversos carbazóis, com diferentes padrões de substituição, em rendimentos bons à moderados, entre eles estão os produtos naturais 6-metoximurraianine e Clausenal. O rendimento global obtido na síntese desses produtos naturais e da Clauraila A são semelhantes aos previamente descritos na literatura, no entanto, em nosso trabalho foi realizada a síntese deste alcaloide em número reduzido de etapas. Durante o processo de otimização da reação de Åkermark-Knölker foi demonstrado, pela primeira vez, o uso de acetilacetonato de paládio como fonte de paládio II alternativa ao acetato de paládio. Além disso, com esses resultados foi possível inferir o possível mecanismo dessa reação. Adicionalmente, após tentativas por diversas alternativas sintéticas, foram obtidos compostos dimetilcromenos a partir de aminofenóis utilizando prenal e ácido fenilborônico, que podem ser úteis na síntese de outros carbazóis, como a Clauraila B. / Heterocyclic molecules are very important class of compounds in biological processes and drugs designing. Among all of them, carbazoles show great applicability for treatment of several diseases, especially against cancer. Many carbazoles are natural products, and one of our interests is Clauraila A. This work is based on the Clauraila A structure to development of a library of carbazoles for biological applications. The optimal conditions of the Åkermark-Knölker cyclodehydrogenation of diarylamine was studied to obtaind the carbazole core. The diarylamines were obtained by the optimized Buchwald-Hartwig amination reaction. This synthetic strategy was used to obtain the range of carbazoles, with different substituents in good and moderate yields, including natural products 6-methoxymurrayanine and Clausenal. The overall yield obtained in the synthesis of the natural products were similar to those previously described in the literature, however, unlike the literature our synthesis involved a reduced number of steps to obtain the desired product. In the optimization step of Åkermark-Knölker reaction, we first applied palladium (II) acetylacetonate instead of palladium (II) acetate. Moreover, with the achieved results the possible mechanism of this reaction was proposed. Additionally, after several attempts, dimethylchromenos were obtained from aminophenols using prenal and phenylboronic acid, which will be useful in the synthesis of other carbazoles, such as Clauraila B.
|
3 |
Synthesis and properties of d6 metal complexes of bidentate and tridentate ‘super donor’ ligandsPal, Amlan Kumar 03 1900 (has links)
La polyvalence de la réaction de couplage-croisé C-N a été explorée pour la synthèse de deux nouvelles classes de ligands: (i) des ligands bidentates neutres de type N^N et (ii) des ligands tridentates neutres de type N^N^N. Ces classes de ligands contiennent des N-hétérocycles aromatiques saturés qui sont couplés avec hexahydropyrimidopyrimidine (hpp). Les ligands forment de cycles à six chaînons sur la coordination du centre Ru(II). Ce fait est avantageux pour améliorer les propriétés photophysiques des complexes de polypyridyl de Ru(II). Les complexes de Ru(II) avec des ligands bidentés ont des émissions qui dépendent de la basicité relative des N-hétérocycles. Bien que ces complexes sont électrochimiquement et photophysiquement attrayant, le problème de la stereopurité ne peut être évité. Une conception soigneuse du type de ligand nous permet de synthétiser un ligand bis-bidentate qui est utile pour surmonter le problème de stereopurité. En raison de la spécialité du ligand bis-bidentate, son complexe diruthénium(II,II) présente une grande diastéréosélectivité sans séparation chirale. Alors que l'unité de hpp agit comme un nucléophile dans le mécanisme de C-N réaction de couplage croisé, il peut également agir en tant que groupe partant, lorsqu'il est activé avec un complexe de monoruthenium. Les complexes achiraux de Ru(II) avec les ligands tridentés présentent des meilleures propriétés photophysiques en comparason avec les prototypes [Ru(tpy)2]2+ (tpy = 2,2′: 6′, 2′′-terpyridine). L’introduction de deux unités de hpp dans les ligands tridentates rend le complexe de Ru(II) en tant que ‘absorbeur noir’ et comme ‘NIR émetteur’ (NIR = de l’anglais, Near Infra-Red). Cet effet est une conséquence d'une meilleure géométrie de coordination octaédrique autour de l'ion Ru(II) et de la forte donation sigma des unités hpp. Les complexes du Re(I) avec des ligands tridentates présentent un comportement redox intéressant et ils émettent dans le bleu. L'oxydation quasi-réversible du métal est contrôlée par la donation sigma des fragments hpp, tandis que la réduction du ligand est régie par la nature électronique du motif N-hétérocycle central du ligand lui-même. Cette thèse presente également l'auto-assemblage des métal-chromophores comme ‘métallo-ligands’ pour former des espèces supramoléculaires discretes utilisant des complexes neutres. Les synthèses et propriétés des métaux-chromophores précités et les supramolécules sont discutées. / The versatility of C-N cross coupling reactions has been explored for the synthesis of two novel classes of ligands : (i) neutral bidentate N^N ligands and (ii) neutral tridentate N^N^N ligands. Both classes of ligands contain saturated aromatic N-heterocycles coupled with the unsaturated hexahydropyrimidopyrimidine (hpp) unit. The ligands form six-membered chelate rings upon coordination to a Ru(II) center. This fact is advantageous to improve the photophysical properties of Ru(II)-polypyridyl complexes. Ru(II) complexes of bidentate ligands can act as red-emitters. The red-emission is dependent on the relative basicity of the N-heterocycles. While these complexes are electrochemically and photophysically appealing, the problem of stereopurity can not be avoided. Careful ligand design affords bis-bidentate ligand that is useful to overcome the problem of stereopurity. Due to the speciality of this bis-bidentate ligand, its diruthenium(II,II) complex exhibits high diastereoselectivity without any chiral separation. While the hpp unit acts as a nucleophile in the mechanism of C-N cross coupling reaction, it can also act as a leaving group when activated as a monoruthenium complex. Achiral Ru(II) complexes of the tridentate ligands display improved photophysical properties over the prototype complex [Ru(tpy)2]2+ (tpy = 2,2’:6’,2’’-terpyridine). Introduction of two hpp units in the tridentate ligands renders the Ru(II) complex into a ‘black absorber’ and a ‘NIR emitter’ (NIR = Near Infra-Red). This fact is a consequence of better octahedral geometry around the Ru(II) ion and strong sigma-donation from the hpp units. The blue-emitting Re(I) complexes of the tridentate ligands also exhibit interesting redox behavior. The metal-based quasi-reversible oxidation is controlled by the sigma-donation from the hpp moieties, while the ligand-based reduction is governed by the electronic nature of the central N-heterocycle of the same ligand moiety. This thesis also incorporates self-assembly of metal-chromophores as ‘metallo-ligands’ to form discrete supramolecular species using neutral metal-complexes. The syntheses and properties of the aforesaid metal-chromophores and the supramolecules are discussed.
|
4 |
Complexes NCN de Ni(II) et Ni(III) : synthèse, caractérisation et rôle dans le mécanisme de couplage C-O, C-N et C-halogènesCloutier, Jean-Philippe 09 1900 (has links)
No description available.
|
Page generated in 0.0649 seconds