Alumina-catalyzed Cope rearrangement

Wang, Paul Jhy-Shing

01 January 1974

The alumina-catalyzed Cope rearrangements of meso- and dl-3,4-diphenylhexa-1,5-diene were examined in detail, following up a preliminary observation by H. Berg at Portland State University. Commercial column-chromatography grade alumina was employed, and was further activated before use.by heating at 650-700° for four hours. Using a ratio of 20 mg of dl-3,4-diphenylhex-l,5-diene to 1 g of alumina in heptane, the Cope rearrangement was complete within 15 minutes at room temperature to give exclusively trans,trans-1,6-diphenylhexa-1,5-diene. This was identified.by melting point, infrared spectroscopy and vapor phase chromatography The catalyzed rearrangement of meso-3,4-diphenylhexa-l,5-diene was run using the same diene to alumina ratio. It was found that 31% of the meso-diene was converted to cis,trans- and trans,trans-l,6-diphenylhexa-1,5-diene at room temperature in four hours. Product iso-merization appeared to take place; the initial ratio of cis,trans-diene to trans,trans-diene was estimated to be 73:27. Another run was carried out at 60°, where the problem of isomerization of cis,trans-diene to trans,trans-diene was more pronounced. The rearrangement gave cis, trans-diene and trans,trans-diene in a ratio of 58:42, as estimated by extrapolation of the product ratio to zero time. Approximately 95% of meso-diene had reacted in one hour at this temperature. The extent of conversion of mes-diene was calculated by quantitative infrared spectroscopy, and the isomeric distribution of products was determined by vapor phase chromatography. The product distribution in the alumina-catalyzed rearrangements parallels that of the thermal Cope rearrangement, where dl-diene gives exclusively trans,trans-diene at 80° with a half-life of eight hours and meso-diene gives 63% cis,trans-diene and 27% trans,trans-diene at 120° with a half-life of 15 hours.

Cope rearrangement

Aluminum oxide

Biphenyl compounds

Chemistry

Studies Related to Tandem Reactivity of 1-Carbomethoxy-5-dicyanomethyl-1,3-cyclohexadiene

Krismanich, Anthony

January 2006

A set of studies centered around the reactions of the active methine compound 1-carbomethoxy-5-dicyanomethyl-1,3-cyclohexadiene (the "ring-opened adduct"), obtained by base-induced ring-opening of the Diels-Alder adduct of 5,5-dicyanocyclopentadiene and methyl acrylate, has been carried out. A plan was devised for the anionic (at the dicyanomethyl carbon) ring-opened adduct whereby its reaction with electrophiles, for example Michael reactions with double-bond acceptors, would generate reactive intermediates that would undergo cyclization by tandem conjugate addition to the a,ß,?,d-unsaturated ring p-system to generate bicyclic compounds. In practice, reaction with di-<i>tert</i>-butyl methylidenemalonate, methyl vinyl ketone, and cyclopentenone generated intermediates that exhibited greater tandem reactivity than was anticipated: the bicyclic enolates were found to cyclize further by Thorpe-Ziegler-like reaction with the proximal nitrile to generate, after facile acid hydrolysis, substituted known tricyclic skeleta termed homobrendanes, specifically, tricyclo[5. 2. 1. 0^4,8]decenes. An attempt was made to generalize the reaction to other substrates, among them singly-activated Michael acceptors and 1,2-heteroatom electrophiles, but the generalization of the homobrendane forming reaction did not meet with success. Attempted functional group manipulations to probe the conversion of the homobrendane derived from di-<i>tert</i>-butyl methylidenemalonate to the homobrendane natural product 2-isocyanoallopupukeanane revealed the unreactivity of the skeletal double-bond toward electrophiles and the high reactivity of the ring ketone toward nucleophiles, among them mCPBA which brought about Baeyer-Villiger reaction, and chloride and hydroxide, which brought about addition/elimination reactions to cleave the last-formed homobrendane ring. <br /> The ring-opened adduct was also envisaged as a potential substrate in intramolecular Heck reactions. To this end, Heck substrates were generated from the ring-opened adduct anion and iodo- and bromo-benzyl halides. A key observation at this stage pertained to the unexpected acidity of the ring-opened adduct C5 proton, which could be deprotonated by DBU to bring about allylic isomerization, a finding that would provide a key insight to the pattern of reactivity later evidenced with alkyl propiolates. Optimization of the Heck substrate-generating reaction was followed by Heck reactions under Jeffery's conditions, which generated angular tricycles as intended, accompanied by aromatic compounds generated by base-induced HCN elimination/rearrangement and dehydrogenation. The Jeffery's conditions were optimized to limit the production of aromatics. <br /> The possibility of ring-opened adduct-derived vinyl silane intermediates undergoing cationic cyclizations led to a minor study based upon the bromination of allylsilanes and the elimination of TMSBr from 1,2-dibromo-3-trimethylsilyl compounds, accessible compounds unaccounted for in the review literature. It was determined that the combination of HBr and Br₂ (perhaps as HBr₃) was required to eliminate TMSBr, in contravention of the textbook account of electrophilic substitutions being the inherent reactions of allylsilanes and Br₂. <br /> Unexpected tandem reactivity was observed in the reactions of the anionic ring-opened adduct and alkyl propiolates under catalytic DBU conditions. Rather than tandem cyclization or simple adduct formation, the allenolate intermediates were determined to undergo extremely facile formal allenolate Cope rearrangements involving the ?,d-double-bond of the parent ring. Excess base intercepted the allenolate by deprotonating ring C5 and effecting 1,2-vinyl transfer by 3-<i>exo</i>-trig addition-elimination. The chemistry of the highly delocalized side-chain carbanion in the Cope product was studied in detail.

Chemistry

tandem

cyclization

conjugate addition

Heck reaction

allenolate Cope rearrangement

Studies Related to Tandem Reactivity of 1-Carbomethoxy-5-dicyanomethyl-1,3-cyclohexadiene

Krismanich, Anthony

January 2006

A set of studies centered around the reactions of the active methine compound 1-carbomethoxy-5-dicyanomethyl-1,3-cyclohexadiene (the "ring-opened adduct"), obtained by base-induced ring-opening of the Diels-Alder adduct of 5,5-dicyanocyclopentadiene and methyl acrylate, has been carried out. A plan was devised for the anionic (at the dicyanomethyl carbon) ring-opened adduct whereby its reaction with electrophiles, for example Michael reactions with double-bond acceptors, would generate reactive intermediates that would undergo cyclization by tandem conjugate addition to the a,ß,?,d-unsaturated ring p-system to generate bicyclic compounds. In practice, reaction with di-<i>tert</i>-butyl methylidenemalonate, methyl vinyl ketone, and cyclopentenone generated intermediates that exhibited greater tandem reactivity than was anticipated: the bicyclic enolates were found to cyclize further by Thorpe-Ziegler-like reaction with the proximal nitrile to generate, after facile acid hydrolysis, substituted known tricyclic skeleta termed homobrendanes, specifically, tricyclo[5. 2. 1. 0^4,8]decenes. An attempt was made to generalize the reaction to other substrates, among them singly-activated Michael acceptors and 1,2-heteroatom electrophiles, but the generalization of the homobrendane forming reaction did not meet with success. Attempted functional group manipulations to probe the conversion of the homobrendane derived from di-<i>tert</i>-butyl methylidenemalonate to the homobrendane natural product 2-isocyanoallopupukeanane revealed the unreactivity of the skeletal double-bond toward electrophiles and the high reactivity of the ring ketone toward nucleophiles, among them mCPBA which brought about Baeyer-Villiger reaction, and chloride and hydroxide, which brought about addition/elimination reactions to cleave the last-formed homobrendane ring. <br /> The ring-opened adduct was also envisaged as a potential substrate in intramolecular Heck reactions. To this end, Heck substrates were generated from the ring-opened adduct anion and iodo- and bromo-benzyl halides. A key observation at this stage pertained to the unexpected acidity of the ring-opened adduct C5 proton, which could be deprotonated by DBU to bring about allylic isomerization, a finding that would provide a key insight to the pattern of reactivity later evidenced with alkyl propiolates. Optimization of the Heck substrate-generating reaction was followed by Heck reactions under Jeffery's conditions, which generated angular tricycles as intended, accompanied by aromatic compounds generated by base-induced HCN elimination/rearrangement and dehydrogenation. The Jeffery's conditions were optimized to limit the production of aromatics. <br /> The possibility of ring-opened adduct-derived vinyl silane intermediates undergoing cationic cyclizations led to a minor study based upon the bromination of allylsilanes and the elimination of TMSBr from 1,2-dibromo-3-trimethylsilyl compounds, accessible compounds unaccounted for in the review literature. It was determined that the combination of HBr and Br₂ (perhaps as HBr₃) was required to eliminate TMSBr, in contravention of the textbook account of electrophilic substitutions being the inherent reactions of allylsilanes and Br₂. <br /> Unexpected tandem reactivity was observed in the reactions of the anionic ring-opened adduct and alkyl propiolates under catalytic DBU conditions. Rather than tandem cyclization or simple adduct formation, the allenolate intermediates were determined to undergo extremely facile formal allenolate Cope rearrangements involving the ?,d-double-bond of the parent ring. Excess base intercepted the allenolate by deprotonating ring C5 and effecting 1,2-vinyl transfer by 3-<i>exo</i>-trig addition-elimination. The chemistry of the highly delocalized side-chain carbanion in the Cope product was studied in detail.

Chemistry

tandem

cyclization

conjugate addition

Heck reaction

allenolate Cope rearrangement

Studies Toward The Synthesis Of Dumsin

Hu, Yang

14 November 2008

No description available.

Chemistry

Dumsin

synthesis

oxidative decarboxylation

oxy-Cope rearrangement

ene cyclization

Dynamique et contrôle de systèmes quantiques ouverts / Dynamics and control of open quantum systems

Chenel, Aurélie

16 July 2014

L'étude des effets quantiques, comme les cohérences quantiques, et leur exploitation en contrôle par impulsion laser constituent encore un défi numérique pour les systèmes de grande taille. Pour réduire la dimensionnalité du problème, la dynamique dissipative se focalise sur un sous-espace quantique dénommé 'système', qui inclut les degrés de liberté les plus importants. Le système est couplé à un bain thermique d'oscillateurs harmoniques. L'outil essentiel de la dynamique dissipative est la densité spectrale du bain, qui contient toutes les informations sur le bain et sur l'interaction entre le système et le bain. Plusieurs stratégies complémentaires existent. Nous adoptons une équation maîtresse quantique non-markovienne pour décrire l'évolution de la matrice densité associée au système. Cette approche, développée par C. Meier et D.J. Tannor, est perturbative en fonction du couplage entre le système et le bain, mais pas en fonction de l'interaction avec un champ laser. Le but est de confronter cette méthodologie à des systèmes réalistes calibrés par des calculs de structure électronique ab initio. Une première étude porte sur la modélisation du transfert d'électron ultrarapide à une hétérojonction oligothiophène-fullerène, présente dans des cellules photovoltaïques organiques. La description du problème en fonction d'une coordonnée brownienne permet de contourner la limitation du régime perturbatif. Le transfert de charge est plus rapide mais moins complet lorsque la distance R entre les fragments oligothiophène et fullerène augmente. La méthode de dynamique quantique décrite ci-dessus est ensuite combinée à la Théorie du Contrôle Optimal (OCT), et appliquée au contrôle d'une isomérisation, le réarrangement de Cope, dans le contexte des réactions de Diels-Alder. La prise en compte de la dissipation dès l'étape d'optimisation du champ permet à l'algorithme de contrôle de contrer la décohérence induite par l'environnement et conduit à un meilleur rendement. La comparaison de modèles à une et deux dimensions montre que le contrôle trouve un mécanisme adapté au modèle utilisé. En deux dimensions, il agit activement sur les deux coordonnées du modèle. En une dimension, le décohérence est minimisée par une accélération du passage par les états délocalisés situés au-dessus de la barrière de potentiel. / The study of quantum effects as quantum coherences and their exploitation for control by laser pulse are still a numerical challenge in big systems. To reduce the dimensionality of the problem, dissipative dynamics focuses on a quantum subspace called 'system', that includes the most important degrees of freedom. The system is coupled to a thermal bath made of harmonic oscillators. The essential tool of dissipative dynamics is the spectral density of the bath, that contains all the information about the bath and the interaction between the system and the bath. Several strategies coexist and complement one another. We adopt a non-Markovian quantum master equation for the evolution of the density matrix associated to the system. This approach, developped by C. Meier and D.J. Tannor, is perturbative in the system-bath coupling, but not in the interaction with a laser field. Our goal is to confront this methodology to realistic systems calibrated by ab initio electronic structure calculations. We first study the ultrafast electron transfer modelling an oligothiophene-fullerene heterojunction, found in organic photovoltaic cells. We present a way of overcoming the limitation of the perturbative regime, using a Brownian oscillator representation to describe the problem. Charge transfer is faster but less complete when the R distance between oligothiophene and fullerene fragments increases. Then we combine the quantum dynamical method described above with the Optimal Control Theory (OCT) method. An application is the control of an isomerization, the Cope rearrangement, in the context of Diels-Alder reactions. Including the dissipation at the design stage of the field enables the control algorithm to react on the environment-induced decoherence and to lead to a better yield. Comparing one and two-dimension models shows that control finds a mechanism adapted to the model. In two dimensions, it actively acts on the two coordinates of the model. In one dimension, decoherence is minimized by accelerating the way through the delocalized states located above the potential energy barrier.

Dynamique quantique

Dynamique dissipative

Contrôle optimal par impulsion laser

Régime non-markovien

Équation maîtresse quantique

Isomérisation

Réarrangement de Cope

Transfert de charge

Quantum dynamics

Dissipative dynamics

Optimal control by laser pulse

Non-Markovian regime

Quantum master equation

Isomerisation

Cope rearrangement

Charge transfer

Oligothiophene-fullerene heterojunction

Utilisation de complexes de titane pour la formation de dérivés azotés : synthèses d'homoallylamines et d'amidines / Titanium complexes for the formation of nitrogen compounds : synthesis of homoallylamines and amidines

Toulot, Stephanie

11 April 2011

Les amines homoallyliques sont des synthons clés pour la construction de nombreuses molécules d’intérêt biologique. Du fait de la double liaison carbone-carbone du fragment allylique, facilement fonctionnalisable, elles sont également très utilisées en synthèse organique. Ce travail de recherche s’oriente sur la synthèse d’amines homoallyliques grâce à des complexes de titane. En effet, le couplage réducteur d’imines et de diènes promu par du titane permet la formation d’amines homoallyliques diastéréoisomères syn et anti. La diastéréosélectivité de la réaction est directement affectée par le substituant porté par l’atome d’azote. Selon qu’il s’agit d’un groupement benzyle ou phényle, la sélectivité sera marquée en faveur de l’amine syn ou anti respectivement. De plus, l’ajout de l’acide de Lewis BF3.OEt2 permet de diminuer considérablement le temps de réaction mais également d’inverser la diastéréosélectivité obtenue avec la réaction sans acide de Lewis.L’instabilité des amines homoallyliques durant le processus de purification a permis d’autre part de mettre en lumière un réarrangement cationique 2-Aza-Cope. Ce réarrangement a été appliqué à la synthèse catalytique d’homocrotylamines et d’un acide aminé , insaturé. Ce manuscrit rapporte également la synthèse d’amines homoallyliques par couplage entre des diènes et des dérivés benzotriazole. Ces dérivés génèrent des iminiums qui réagissent plus efficacement que les imines pour former les amines souhaitées. De plus, la réaction effectuée avec des dérivés de type bis(benzotriazole) conduit sélectivement à des homoallyl-(E)- homocrotylamines. Cette réactivité est expliquée par une triple réaction en cascade à savoir : allyltitanation – réarrangement cationique 2-Aza-Cope – allyltitanation.D’autre part, une partie de ce manuscrit s’intéresse à la réaction entre le complexe Ti(NMe2)4 et des dioxocyclames qui forment de nouvelles diamidines macrocyliques. Les propriétés chimiques de ces amidines présentent de nombreux intérêts pour la formation de complexes avec des métaux tels que le Cu, le Ni et le Pd. Les analyses des complexes méritent d’être approfondies afin de déterminer sans ambigüité leur structure et de mieux comprendre le mode de coordination de ces nouveaux macrocycles azotés. / Homoallylic amines are key reagents for the formation of a large number of biologically interesting products. Due to the double bond of their allylic moiety, easily functionalisable, they are commonly used in organic synthesis. This research work deals with the synthesis of homoallylic amines thanks to titanium complexes. In fact, the reductive coupling between of imines and dienes promoted by titanium allows the formation of diastereoisomeric homoallylamines syn and anti. The diastereoselectivity of the reaction is directly affected by the nitrogen substituent. Whether it is benzyl or phenyl, the selectivity will be in favour of syn or anti respectively. Moreover, the addition of a the Lewis acid BF3.OEt2 not only considerably decreases the reaction time but also inverts the diastereoselectivity obtained with the reaction without a Lewis acid.The decomposition of homoallylamines during the purification process allowed to highlights a cationic 2-Aza-Cope rearrangement. This rearrangement was applied to the catalytic synthesis of homocrotylamines and of a _,_ unsaturated amino acid. This manuscript also reports the synthesis of homoallylamines by coupling between dienes and benzotriazole derivatives. These derivatives generate iminiums which react efficiently than imines to form the desired amines. Moreover, the reaction ran with bis(benzotriazole) derivatives lead selectively to homoallyl-(E)-homocrotylamines. This reactivity is explained by a triple cascade reaction meaning an allyltitanation - cationic 2-Aza-Cope rearrangement – allyltitanation.Secondly, part of this thesis focuses on the reaction between Ti(NMe2)4 complex and dioxocyclams to produce new macrocyclic diamidines. The chemical properties of this amidines present several interests for the formation of complexes with metals such as Cu, Ni and Pd. The analyses of the complexes deserve further investigation to determine unambiguously their structure in order to understand much better the coordination of these new nitrogen macrocycles.

Amines homoallyliques

Homoallylamines

Titane

Allyltitanation

Réarrangement cationique 2-Aza-Cope

Homocrotylamines

Dérivés benzotriazole

Dérivés bis(benzotriazole)

Homoallyl-(E)-homocrotylamines

Dioxocyclames

Diamidines macrocyliques

Homoallylic amines

Homoallylamines

Titanium

Allyltitanation

Cationic 2-Aza- Cope rearrangement

Homocrotylamines

Benzotriazole derivatives

Bis(benzotriazole) derivatives

Homoallyl-(E)-homocrotylamines

Dioxocyclams

Macrocyclic diamidines

541.39

547

Die Iromycine und das Collinolacton: Synthese mikrobieller Naturstoffe aus Streptomyces sp. / The Iromycins and the Collinolacton: synthesis microbial natural products from Streptomyces sp.

Shojaei, Heydar

02 May 2007

No description available.

540 Chemie

Mathematics and Computer Science

Totalsynthese des Naturstoffs Iromycin A

Inhibitor der NO-Synthase

6-Brommethylpyron

terminales Alkin

Carboaluminierungsreaktion

Alkenyldimethylalane

Lithiumalkenyltrialkylalanate

Alanate

Kreuzkupplungsprodukt

Iromycinvorläufer

Übergangsmetall-katalysierte Reaktionen

Collinolacton

enantioselektive Aldol-Reaktion

diastereoselektive Diels-Alder-Reaktion

Oxy-Cope-Umlagerung

Baeyer-Villiger-Oxidation

Hexadienal

Mukaiyama-Aldoladdition

NO synthase inhibitor

6-brommethylpyron

terminal alkyn

carboalumination reaction

alkenyldimethylalane

lithium alkenyltrialkylalanate

alanate

crosscuppling product

precursor of iromycin

transition metals catalysisreactions

collinolacton

enantioselectiv aldol reaction

diastereoselectiv Diels-Alder reaction

Oxy-Cope rearrangement

Baeyer-Villiger oxidation

Hexadienaldehyd

Mukaiyama aldol addition

35.50

35.52

35.60

SU 000: Organische Chemie

SUJ 270