Síntese enantiosseletiva de fenilselenolactonas e feniltelurolactonas / Enantioselective synthesis of phenylselenolactones and phenyltelurolactones

Alessandro Leal Nogueira

07 June 2002

Este trabalho descreve uma nova metodologia sintética que combina a química de espécies organometálicas contendo Se e Te com biotransformações usando lipases, para a síntese enantiosseletiva de fenilselenolactonas 7a e feniltelurolactonas 7b. Estas lactonas foram obtidas pela resolução cinética de álcoois secundários racêmicos 6, pela ação da lipase de pâncreas de porco (PPL- Sigma-Aldrich) em meio orgânico anidro. (Ver arquivo PDF). / This work describes a novel synthetic methodology that combines the chemistry of organic compounds, organometalic species containing Se and Te and biotransformations using lipases for the enantioselective synthesis of phenylselenolactones 7a and phenyltelurolactones 7b. These lactones were obtained by kinetic resolution of racemic sec-alcohols 6 by the action of pig pancreatic lipases (PPL- Sigma-Aldrich) in organic media (Scheme1). (See files PDF)

Biocatálise

Compostos organometálicos (Síntese)

Lipases

Organosselenetos

Organoteluretos

Síntese enantiosseletiva

Síntese orgânica

Biocatalysis

Enantioselective synthesis

Lipases

Organic synthesis

Organometallic compounds (Synthesis)

Organoselenides

Organotelurets

Chiral Boro-Phosphates in Asymmetric Catalysis: 1,4-reduction of Enones and Reductive Aldol

Lopez, Susana Sorina

08 April 2016

The biological activity of the pharmaceutical drugs often depends on how it fits with a receptor making stereochemistry a key component. Selective reactions can limit or avoid the mixture of enantiomers obtained. One such reaction is the selective reduction of a carbon-carbon double bond in the presence of a carbonyl. Although efficient, current asymmetric synthesis methods have limitations such as harsh reaction conditions, the high costs of chiral catalysts and the toxicity of the metal-based catalysts. Catalysts derived from small organic molecules have become an attractive alternative which have been explored more rigorously in recent years. Using a BINOL-derived boro-phosphate catalyst, we have developed a methodology that selectively reduces the carbon-carbon double bond of linear α, β-unsaturated ketones, exclusively giving the corresponding saturated ketone. To the best of our knowledge, this reaction is the first of its kind to accomplish this transformation and results give high yields of >93% and enantioselectivities >90% at room temperature. Furthermore, the products of this novel reaction can be subjected to a choice electrophile, in example benzaldehyde, to afford diastereoselective tertiary alcohol products with enantioselectivities of >88% and diastereoselectivities of up to 99:1.

Enantioselective synthesis

1

4-reduction

BINOL-derived boro-phosphate catalysts

α

β-unsaturated enones

ketones

reductive aldol

organocatalysis

boro-phosphate catalysis

Chemistry

Synthèse et désymétrisation de cycloheptatriènes silylés : application à la synthèse de mimes de sucres

Beniazza, Redouane

11 December 2009

Cette thèse a porté sur la synthèse de cycloheptatriènes (CHT) silylés et leur désymétrisation pour l’obtention de mimes de sucres. Nous avons ainsi développé une approche synthétique d’analogues de calystégines et mis en évidence un réarrangement inattendu conduisant à un squelette nortropane original. Dans un second temps, nous avons étudié l’équilibre cycloheptatriène-norcaradiène (CHT-NCD) et mis au point une méthodologie de cycloaddition de CHT silylés avec des dérivés nitroso, efficace et hautement stéréosélective, pour la synthèse d’aminocarbasucres via une cascade : électrocyclisation (CHT-NCD)-cycloaddition-ouverture cationique-cycloaddition. En 3 étapes, à partir du CHT méthylsilylé, 7 centres stéréogènes, 5 liaisons C-O et 2 C-N sont formés de façon diastéréo- et régiocontrôlée. Une réaction Hétéro- Diels-Alder énantiosélective sur les CHT silylés, qui conduit en une étape à la formation de 3 centres asymétriques, a aussi été développée. / This work dealt with the synthesis of silylated cycloheptatrienes and their desymmetrisation toward the synthesis of sugar mimics. Calystegines analogues were synthesized and an unexpected rearrangement leading to an original nortropane skeleton was emphasized. In a second part, cycloheptatriene-norcaradiene (CHT-NCD) equilibrium was studied. Silylated cycloheptatriene were also shown to react through cycloaddition reaction with acylnitroso compounds, through cascade processes: electrocyclisation (CHT-NCD)-cycloaddition- cationique cyclopropane opening-cycloaddition, leading highly selectively to aminocarbasugars. Starting from methylsilylated CHT, 7 stereogenic centers, 5 C-O bonds and 2 C-N bonds were formed in only 3 steps. An enantioselective Hetero-Diels-Alder reaction was also developed.

Synthèse

Cycloheptatriènes silylés

Désymétrisation

Mimes de sucres

Calystégines

Synthesis

Silylated cycloheptatrienes

Desymmetrization

Sugar mimics

Calystegines

Développement et évaluation de nouveaux systèmes catalytiques pour une chimie plus respectueuse de l'environnement / Development and evauation of new catalytic systems for more environmentally chemistry

El Kadiri, Moulay Youness

11 October 2012

La fonctionnalisation sélective de BINOL en position 6 ou 6 et 6' par des groupements 3 - (diméthylamino)prop-1-yn-1-yl est décrite. Cette méthode constitue une stratégie prometteuse pour le développement de nouveaux ligands recyclables. Les complexes de La et Yb correspondants ont été testés dans la réaction d’époxydation des cétones α, β-insaturées. Les complexes d’ytterbium sont les plus efficaces, fournissant les époxydes chiraux attendus avec 90 ou 93% d’excès énantiomérique en conditions homogène et hétérogène, respectivement.Dans le cadre de nos études, nous avons également évalué de nouveaux catalyseurs comportant un ion de manganèse penta-coordinnée [LMn(III)OH]ClO4 et [LMnCl](MnCl4)0,5. Ces complexes ont été testés dans la réaction d’époxydation des oléfines terminales utilisant H2O2/NaHCO3 et PhIO comme oxydant. Il s'avère que le complexe [LMn(III)OH]ClO4 est le catalyseur le plus efficace de la série. Une autre approche également été envisagée : oxyder une molécule d’eau présente dans la sphère de coordination du métal par le Cerium Ammonium Nitrate (CAN) et utiliser l’espèce oxydante ainsi générée pour oxyder des substrats. Nos études ont montré que cette stratégie était possible et permettait d’oxyder des substrats organiques. / The selective functionalization of BINOL in position 6 or 6 and 6’ with 3-(dimethylamino)prop-1-yn-1yl is described, and it constitutes a promising strategy for the development of a recyclable ligands. The corresponding La and Yb complexes were evaluated towards the epoxidation of α,β-unsaturated ketones. The Yb-complexes displayed an efficient activity, affording the expected chiral epoxides in up to 90 or 93% ee in homogeneous and heterogenous catalysis, respectively.As part of our studies, we also evaluated new catalysts with a penta-coordinated manganese ion [LMn(III)OH]ClO4 and [LMnCl](MnCl4)0.5. These complexes were tested in the epoxidation reaction of terminal olefins using H2O2/NaHCO3 and PhIO as an oxidant. It turns out that the complex [LMn (III) OH] ClO4 is the most efficient catalyst of the series. Another approach was also considered: oxidize a molecule of water present in the coordination sphere of the metal by Cerium Ammonium Nitrate (CAN) and use the generated oxidizing species to oxidize substrates. Our studies have shown that this strategy was feasible and allowed to oxidize organic substrates.

Époxydation énantiosélective

BINOL

Lanthanide

Catalyse homogène

Catalyse hétérogène

Epoxydation des oléfines terminales

Oxydation de l’eau

Enantioselective epoxidation

BINOL

Lanthanide

Homogeneous catalysis

Heterogenous catalysis

Epoxidation of terminale olefin

Water oxidation

541.395

Syntéza a využití N-heterocyklických karbenových ligandů na bázi helicenů / Synthesis and application of helicene-based N-heterocyclic carbene ligands

Gay Sánchez, Isabel

January 2021

The aim of my PhD Thesis was to explore the potential of helically chiral N-heterocyclic carbene (NHC) ligands in asymmetric catalysis. Helicenes and helicene-like molecules are inherently chiral. Their application in this field has been rather limited. To date, only a few examples of enantiopure helically chiral NHCs have been described in the literature. Using a well-established method based on the diastereoselective metal catalysed [2+2+2] cycloisomerisation of centrally chiral triynes as the key step, I have synthesised a series of optically pure 2H-pyran based penta- and hexahelicenes bearing an amino group on the terminal benzene ring. The triynes were prepared by a sequence of Sonogashira and Mitsunobu coupling reactions using the commercially available (S)-but-3-yn-2-ol as the source of chirality. The resulting aminooxa[5]- and aminooxa[6]helicenes were then converted into the corresponding 1,3-disubstituted imidazolium salts, from which, upon deprotonation, the helically chiral N- heterocyclic carbenes were generated. To evaluate the performance of the new helically chiral ligands, the enantioselective Ni0 - catalysed [2+2+2] intramolecular cycloisomerisation of prochiral triynes to nonracemic dibenzohelicenes was chosen as a model reaction. All the synthesised imidazolium salts provided,...

Nouvelles applications de paires d'ions coopératifs chirales en organocatalyse : utilisations dans des réactions mettant en jeu l'acide de Meldrum et ses dérivés. / New applications of chiral pairs of cooperative ions in organocatalysis : applications in reactions involving Meldrum acid ans its derivatives

Legros, Fabien

17 November 2017

Les travaux présentés dans ce manuscrit de thèse concernent la mise au point de nouvelles méthodologies de synthèse asymétrique en organocatalyse promues par des phénolates d’ammoniums quaternaires, catalyseurs de type paires d’ions coopératifs chirales, et des dérivés de l’acide de Meldrum comme substrats. Dans un premier temps, nous avons utilisé l’acide de Meldrum comme un précurseur de cétène via une cycloréversion induite par O-silylation grâce à une probase silylée, afin de réaliser une réaction de cycloaddition [2+2] avec un aldéhyde ou une imine catalysée par un phénolate d’ammonium chiral, permettant de former des β-lactones et des β-lactames. Les travaux effectués n’ont cependant pas permis d’obtenir le produit désiré. Dans un secont temps, nous avons exploité le caractère électrophile des dérivés disubstitués de l’acide de Meldrum et leur capacité à fragmenter suite à l’addition nucléophile d’un phénolate. Une première partie a été consacrée au développement d’une réaction monotope de désymétrisation de l’acide de Meldrum pour former des malonates dissymétriques après une étape d’alkylation in situ du carboxylate intermédiaire. Bien que de bons rendements isolés aient été obtenus, un maximum de 21% ee a pu seulement être atteint. Dans une seconde partie, nous avons mis au point une séquence originale, catalysée par un phénolate d’ammonium quaternaire chiral, qui est constituée (1) d’une addition nucléophile de phénolate suivie (2) d’une fragmentation avec perte d’acétone qui permet, après (3) une étape de décarboxylation de générer un acétal de cétène acyclique qui va subir (4) une réaction de protonation énantiosélective. Cette méthode a pu être appliquée à un large panel de substrats avec de bons rendements et des excès énantiomériques allant jusqu’à 70% ee. / The work developed in this PhD thesis deals with the development of new asymmetric organocatalytic methodologies implying cooperative chiral ion pairing catalysis, by using chiral ammonium phenoxides as catalysts and Meldrum’s acid derivatives as substrates. First, we used the ability of Meldrum’s acid to generate acylketenes after cycloversion triggered by O-silylation thanks to a silylated probase in the presence of a chiral ammonium phenoxide. Such an approach was applied to the synthesis of β-lactones and β-lactames following a [2+2] cycloaddition reaction with aldehydes or imines respectively. Unfortunately, the desired products have never been observed. Then, we focused on disubstitued derivatives of Meldrum’s acids and their propensity to fragment after a nucleophilic addition of phenoxide. In a first part, we have developed a one-pot desymmetrization reaction of Meldrum’s acid derivatives to form dissymmetric malonates after an in-situ alkylation of the transient carboxylate. However, despite high isolated yields, only an unsatisfactory 21% ee could be reached. In a second part, we have developed an unprecedented sequence consisting of (1) a nucleophilic addition of phenol derivatives to Meldrum’s acid followed by (2) a fragmentation with loss of acetone, leading after (3) decaboxylation to the formation of an acyclic ketene acetal which is involved in (4) an enantioselective protonation reaction to provide a wide range of enantioenriched phenolic esters with moderate to excellent yield and up to 70% ee.

Dérivés d'acide de Meldrum

Paires d'ions coopératifs

Catalyse par transfert de phase

Meldrum's acid derivatives

Cooperative chiral ion pairing

Phase transfer catalysis

547

Enantioselektivní separace vybraných analytů v systémech superkritické fluidní chromatografie a vysokoúčinné kapalinové chromatografie / Enantioselective separation of certain analytes using supercritical fluid chromatography and high performance liquid chromatography

Martínková, Monika

January 2017

(EN) Cellulose tris-(3,5-dimethylphenylcarbamate) chiral stationary phase was used for separation of selected 24 analytes. Enantioseparations were realized using two systems, high performance liquid chromatography and supercritical fluid chromatography. Effect of mobile phase composition was studied. Five different aditives (isopropylamine, diethylamine, triethylamine, trifluoroacetic acid, isopropylamine combined with trifluoroacetic acid) and their influence on enantioseparation were tested. Influence of two different modifiers (methanol, propan-2-ol) combined with all aditives was also tested in supercritical fluid chromatography system. The aim of this work was to find optimized composition of mobile phase which was suitable for separation of the analytes studied and to compare separation potential among all mobile phases and also between used separations systems. The supercritical fluid chromatography was shown to yield better results, i.e. better resolution in shorter analysis time. However examples of analytes better resolved under optimized conditions in high performance liquid chromatography system have also been found. Keywords (EN) Chirality, enantiomers, enantioselective separation, chiral stationary phase, high performance liquid chromatography, supercritical fluid chromatography.

Využití organokatalýzy založené na tvorbě H-vazeb v organické syntéze / Application of H-Bonding Catalysis in Organic Synthesis

Urban, Michal

January 2020

Over the last 20 years, asymmetric synthesis has seen considerable progress, particularly in the field of catalysis. In addition to enzyme catalysis and transition metal catalysis, organocatalysis, catalysis using small organic molecules also plays an important role in the asymmetric synthesis. Chiral organocatalysts allow the preparation of structurally interesting and optically pure molecules via various activation modes. This work is focused on the use of organocatalysis based on the formation of hydrogen bonds in organic synthesis. Our study was devoted to the enantioselective organocatalytic reactions of ketimines leading to the formation of chiral vicinal centers. The first part deals with the organocatalytic enantioselective addition reaction of α- fluoro(phenylsulfonyl)methanes to ketimines derived from isatin. The reaction utilizes catalysis of a commercially available quinoline alkaloid cinchonine. A series of enantiomerically pure compounds were prepared containing two neighboring stereocenters in good yields of up to 97%, with diastereoselectivity up to 6: 1 dr and with enantiomeric excesses of 70-98% ee. In most cases pure diastereomers were obtained. In the second part of the work a method of enantioselective orgnocatalytic synthesis of bis-spirocompounds containing two neighboring...

Synthese und Charakterisierung neuer metall-organischer Gerüstverbindungen und deren Anwendung in der asymmetrischen Katalyse und Gasspeicherung

Gedrich, Kristina

01 February 2011

Ziel der durchgeführten Arbeiten war die Etablierung neuer Synthesestrategien zur Gewinnung chiraler metall-organischer Gerüstverbindungen (engl: Metal-Organic Frameworks, MOFs). Hierfür wurden drei verschiedene Ansätze verfolgt. Zunächst sollte die Einbringung einer chiralen Dicarbonsäure mit einem 2,2´-Spirobiindan-Gerüst in ein MOF-Netzwerk untersucht werden. Im Rahmen einer Kooperation wurden neue mit chiralen Oxazolidinonen substituierte 4,4´,4´´-Benzol-1,3,5-triyl-tribenzoesäuren H3ChirBTB-n (n = 1, 2) entwickelt, die ebenfalls zur Synthese neuer chiraler MOFs dienten. Die Modifizierung bekannter nicht-chiraler metall-organischer Gerüstverbindungen mit koordinativ ungesättigten Metallatomen durch Anbindung chiraler Amine stellte die dritte Synthesestrategie dar. Im Rahmen der letztgenannten Syntheseroute wurde für MIL-101 (MIL = Matérial Institut Lavoisier) eine sehr hohe katalytische Aktivität in der Cyanosilylierung von Benzaldehyd nachgewiesen. Die Umsetzung mit chiralen Aminen führte jedoch nicht zu einem enantioselektiven Katalysator. Im Gegensatz dazu konnten die ersten beiden Synthesewege zur Gewinnung neuer chiraler metall-organischer Gerüstverbindungen erfolgreich beschritten werden. Durch solvothermale Reaktion von (S)-2,2´-Spirobiindan-5,5´-dicarbonsäure ((S)-H2Spiro-BIDC) mit Zinknitrat in N,N-Dimethylformamid (DMF) wurde eine neue chirale metall-organische Gerüstverbindung namens DUT-7 (DUT = Dresden University of Technology) der Zusammensetzung Zn4O((S)-Spiro-BIDC)3 dargestellt. Neben einer unerwarteten, zweifach interpenetrierten Netzwerkstruktur mit hexagonalen Kanälen weist DUT-7 eine für MOFs bislang noch nicht beobachtete temperaturinduzierte, reversible Strukturänderung auf. Die zweite neue Strategie zur Gewinnung chiraler MOFs beinhaltete die Umsetzung der chiralen Tricarbonsäuren H3ChirBTB-n, die entweder (S)-4-iso-Propyl- (n = 1) oder (S)-4-Benzyl-1,3-Oxazolidin-2-on-Substituenten (n = 2) tragen. Die beiden gewonnenen Verbindungen Zn3(ChirBTB-1)2 und Zn3(ChirBTB-2)2 weisen trotz gleicher Zusammensetzung völlig unterschiedliche Kristallstrukturen auf. Beide Materialien wurden erfolgreich in der Mukaiyama-Aldol-Reaktion von Benz- bzw. 1-Naphthaldehyd mit 1-Methoxy-2-methyl-1-(trimethylsiloxy)propen eingesetzt, wobei ihre katalytische Aktivität mit verschiedenen Referenzkatalysatoren verglichen wurde. Die erzielten Enantiomerenüberschüsse (ee) liegen zwischen 6 und 16%. Auf der Suche nach neuen, für die Einbringung der ChirBTB-n-Liganden geeigneten MOF-Strukturen wurde auch die Umsetzung der reinen, nicht chiralen 4,4´,4´´-Benzol-1,3,5-triyl-tribenzoesäure (H3BTB) untersucht. Die Reaktion mit Nickelnitrat führte zur Bildung einer neuen hochporösen Verbindung namens DUT-9 mit der Zusammensetzung Ni5O2(BTB)2(DEF,DMF)4(H2O)4. DUT-9 weist neben den auf dem Gebiet der MOF-Forschung bislang unbekannten Ni5O2-Clustern eine noch nicht beschriebene dreidimensionale (3,6)-Netzwerktopologie auf. Das neue Material zeigt zudem exzellente Speicherkapazitäten für Wasserstoff, Methan und Kohlenstoffdioxid. / The present work aims on the search for new synthesis strategies towards chiral Metal-Organic Frameworks (MOFs). Three different approaches were pursued. Initially, the integration of a chiral dicarboxylic acid with a 2,2´-spirobiindane backbone into a MOF network was investigated. Within a cooperation, new 4,4´,4´´-benzene-1,3,5-triyl-tribenzoic acids H3ChirBTB-n (n = 1,2) with chiral oxazolidinone substituents were developed which were also used for the assembly of chiral MOFs. The third synthesis strategy involved the tethering of chiral amines to coordinatively unsaturated metal atoms of known non-chiral Metal-Organic Frameworks. Within the last-mentioned approach, the very high catalytic activity of MIL-101 (MIL = Matérial Institut Lavoisier) towards the cyanosilylation of benzaldehyde was demonstrated. Treatment with chiral amines did not lead to an enantioselective catalyst. In contrast, the first two synthesis strategies could be performed successfully. A new MOF named DUT-7 (DUT = Dresden University of Technology) with composition Zn4O((S)-Spiro-BIDC)3 was obtained by solvothermal reaction of (S)-2,2´-spirobiindane-5,5´-dicarboxylic acid ((S)-H2Spiro-BIDC) with zinc nitrate in N,N-dimethylformamide (DMF). Besides an unexpected, two-fold interpenetrated framework structure with hexagonal channels, DUT-7 shows a temperature induced, reversible structure transformation not yet observed. The other new strategy to obtain chiral Metal-Organic Frameworks involved the conversion of the chiral tricarboxylic acids H3ChirBTB-n bearing either a (S)-4-iso-propyl- (n = 1) or a (S)-4-benzyl-1,3-oxazolidin-2-one substituent (n = 2). Though having the same framework composition, the new compounds Zn3(ChirBTB-1)2 and Zn3(ChirBTB-2)2 exhibit completely different crystal structures. Both materials were tested in the Mukaiyama aldol reaction between benzaldehyde or 1-naphthaldehyde, respectively, and 1-methoxy-2-methyl-1-(trimethylsiloxy)propene and their catalytic activity was compared to different reference catalysts. Enantiomeric excess values (ee) between 6 and 16% were obtained. In search of new MOF structures being suitable for the integration of the ChirBTB-n linkers, the conversion of the pure, non chiral 4,4´,4´´-benzene-1,3,5-triyltribenzoic acid (H3BTB) was investigated. The reaction with nickel nitrate lead to the formation of a new, highly porous compound Ni5O2(BTB)2(DEF,DMF)4(H2O)4 named DUT-9. Besides Ni5O2 clusters which are a novelty in MOF chemistry, DUT-9 exhibits a three dimensional (3,6)-network topology not yet described. In addition, the new material shows excellent storage capacities for hydrogen, methane and carbon dioxide.

info:eu-repo/classification/ddc/540

ddc:540

Aminocatalyse et Réactions en Cascade pour la Synthèse de Polycycles Tridimensionnels / Aminocatalysis and Cascade Reactions for the Synthesis of Tridimensional Polycycles

Pantaine, Loïc

28 October 2016

Les travaux exposés dans ce manuscrit ont pour objectif d’étudier des séquences réactionnelles organocatalysées permettant la formation stéréosélective de liaisons carbone-carbone ou carbone-hétéroatome. Plusieurs stratégies ont été développées pour la préparation d’architectures cycliques chirales dont la synthèse représente un enjeu important en raison de leur présence dans un grand nombre de molécules d’intérêt biologique. Le manuscrit débute par une introduction sur le principe de l’organocatalyse en se focalisant sur les différents modes d’activation en aminocatalyse.Le premier chapitre traite de la synthèse, sans solvant, régio- et diastéréosélective de bicycles comportant une hydrazine cyclique. Le deuxième chapitre combine la désaromatisation ou la désymétrisation à une séquence aminocatalysée, pour former des polycycles tridimensionnels énantio-enrichis à partir d’aldéhydes insaturés. Enfin, le troisième chapitre se concentre sur la synthèse de sulfamides non symétriques et leur utilisation comme substrats en aminocatalyse. / The work presented in this manuscript aims to study organocatalytic reaction sequences enabling the stereoselective formation of carbon-carbon and carbon-heteroatom bonds. Various strategies have been developped for the preparation of chiral cyclic architectures, which represents an important challenge due to their presence in a vast number of biologically active compounds. This manuscript starts off by introducing the principal of organocatalysis, and more specifically the different activation means used in aminocatalysis.The first chapter focuses on the regio- and diastereoselective synthesis of cyclic hydrazine-containing bicycles in a solvent-free way. The second chapter merges de-aromatization or desymetrization with an aminocatalytic reaction sequence, to yield tridimensional enantioenriched polycycles from unsaturated aldehydes. Lastly, the third chapter concentrates on the synthesis of unsymmetrical sulfamides and their uses as substrates in aminocatalysis.

Aminocatalyse asymétrique

Synthèse énantiosélective

Cascade réactionelle

Polycycles chiraux

Composés azotés

Asymmetric aminocatalysis

Enantioselective synthesis

One-Pot reactions

Chiral polycycles

Nitrogen-Containing compounds

547