Intramolecular 2+2 Cycloadditions of Ketenes

Giang, Yun-Seng F. (Yun-Seng Frank)

12 1900

The objective of this study was to explore intramolecular ketene cycloadditions with the anticipated results of developing new synthetic methodology for the synthesis of polycyclic compounds difficult to obtain by other procedures. (o-Alkenylphenoxy)ketenes were initially selected for this study because these ketenes provided a favorable proximity for the intramolecular [2+2] cycloaddition reactions. The difunctional precursors, (o-alkenylphenoxy)- acetic acids, were readily prepared from o-alkenylphenols and ∝-halocarboxylic acids and were converted to the corresponding acid chlorides by reaction with oxalyl chloride. The acid chlorides were dehydrochlorinated to the corresponding (o-alkenylphenoxy)ketenes by treatment with triethylamine. The ketenes undergo a facile intramolecular [2+2] cycloaddition to give polycyclic eye 1obutanones. The (o-vinylphenoxy)ketenes are clearly more reactive than the (o-allylphenoxy)ketenes and provide much better yields of the cycloaddition products because of electronic effects in the transition state in the cycloaddition process. The intramolecular [2+2] cycloadditions of keteniminium salts were included in this study as a more electrophilic alternative to ketenes that will react with less nucleophilic carbon-carbon double bonds. However, the use of keteniminium salts instead of ketenes in Intramolecular cycloadditions does have some limitations. The synthesis of benzofurans via the intramolecular [2+2] cycloadditions of (o-acylphenoxy)ketenes was accomplished. The initially formed ß-lactone cycloaddition products spontaneously underwent decarboxylation to the benzofurans. The aromaticity of the benzofurans is apparently a very strong driving force for the cycloaddition. During the course of this study, two new synthetic methods were discovered which in many instances represent a significant Improvement over existing methods. The Wittig Reactions of ketoacids without protecting the carboxyl groups provide a reliable source of the precursor unsaturated acids needed for intramolecular ketene-olefin cycloadditions. Also, the one-pot preparation of intramolecular ketene cycloaddition products from the carboxylic acid via the tosylate represents a new synthetic method. This procedure eliminates the acid halide preparation, isolation and purification step, thereby significantly simplifying the synthesis.

ketenes

synthesis of polycyclic compounds

ring formation

Ketenes.

Ring formation (Chemistry)

Approches éco-compatibles en catalyse homogène : développement de nouvelles méthodologies de synthèse pour la formation de molécules complexes / Eco-Friendly Appraoches in Homogeneous Catalysis : development of New Synthetic Methodologies for the Formation of Complex Scaffolds

Vayer, Marie

06 November 2018

Grâce à l’utilisation de catalyseurs sacrifiables issus, la plupart du temps, du groupe principal ou de la première période des éléments de transition, des nouvelles méthodologies de synthèse pour accéder à des molécules complexes ont été développées au cours de cette thèse. i) Des bicyclolactones ont été synthétisées par addition intramoléculaire de β-cétoesters sur des diènes-1,3 catalysée par un système coopératif de Bi(OTf)₃ et d’HOTf. ii) le motif 7-alcynylcycloheptatriène a été étudié et a permis d’accéder sélectivement à différents produits issus soit d’une cycloisomérisation d’énynes-1,6 ou d’une hydroarylation d’allènes, en fonction du caractère dur ou mou de l’acide de Lewis utilisé. iii) Ce motif a ensuite été utilisé comme plateforme pour accéder à des molécules polycycliques en présence d’acides de Lewis ou à des bromophénylallènes en présence d’un agent de bromation. Les bromoallènes ainsi formés ont pu être engagé dans des réactions de couplages C-C et C-N ou dans une réaction de CH-propargylation. iv) La N-éthylation réductrice d’imines en présence d’éthanol et d’un complexe de fer facilement accessible a été étudiée et a conduit à la formation d’amines tertiaires portant trois substituants différents. / Due to the use of sacrificial catalysts, most of the time derived from main group elements or 1st row transition metal, new methodologies were developed in this thesis to access complex molecules. i) Bicyclolactones were synthesized by an intramolecular addition of β-ketoesters into 1,3-dienes catalyzed by a cooperative Bi(OTf)₃ / HOTf catalytic system. ii) The 7-alkynylcyclohepatriene moiety was studied and afforded different products provided by a cycloisomerization of 1,6-enynes or an hydroarylation of allenes. The selectivity of this reaction is dependent of the soft or hard character of the Lewis acids engaged. iii) Afterward, the 7-alkynylcycloheptatriene moeity was used as a plateform to access various polycyclic molecules in presence of Lewis acids or bromophenylallenes in presence of a bromation agent. Thus the bromoallene formed can be engaged in C-C and C-N cross coupling reactions or in a CH propargylation reaction. iv) The reductive ethylation of imines using ethanol and a simple iron complex was developed and led to the formation of tertiary amines with three different substituents.

Catalyse homogène

Acides de Lewis π

Synthèse de composés polycycliques

Autotransfert d’hydrogène

Métaux du groupe principal

Métaux de transition

Homogeneous catalysis

.π Lewis acids

Synthesis of polycyclic compounds

Hydrogen borrowing strategy

Main group metal

Transition metal