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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Cycloisomérisations catalysées par les sels du gallium et les complexes NHC-Gallium(III) / Cycloisomerizations Catalyzed by Gallium Salts and NHC-Gallium(III) Complexes

Tang, Shun 15 November 2013 (has links)
Afin de développer des méthodes alternatives à l'activation de systèmes Pi en catalyse homogène par des métaux nobles coûteux et toxiques, nous nous sommes focalisés sur des complexes métalliques et plus particulièrement ceux de la colonne du group XIII. Cette thèse approche une contribution à ce champ d'études, et nous nous sommes particulièrement concentrés sur la chimie de gallium.Trois principaux aspects ont été étudiés dans ce manuscrit: la réactivité des halogénures de gallium(III), des complexes bien définis de gallium (III) portant carbènes N- hétérocycliques (NHCs), et leur activation de systèmes en catalyse.La thèse est divisée en trois chapitres. Le premier chapitre donne un aperçu des travaux effectués dans le domaine de la synthèse organique faisant intervenir des composés de gallium (III) , en se concentrant sur ​​leur utilisation en tant qu’ acides de Lewis et .Dans le deuxième chapitre, nous avons tenté d'exploiter le potentiel catalytique de GaCl3 dans une nouvelle réaction de cycloisomérisation/Friedel-Crafts en tandem. Une section dédiée à l'étude sur l’hydratation d’alcyne catalysée par GaCl3 est également fournie.Le troisième chapitre commence par une description de la synthèse d'une série de complexes de gallium (III) portant diverses NHCs comme ligands pour surmonter les limites des halogénures de gallium(III) en catalyse. Ensuite, des études de méthodologie sur le processus de tandem impliquant arenynes-1,6 avec les gallium(III) complexes neutres et cationiques ont été décrits. Une évaluation cinétique pour des catalyseurs, des divers substrats et l'influence de contreanions sont discutés. En outre, les efforts dans la version asymétrique de cette tandem transformation et des autres cyclisations sont également présentés.Le dernier chapitre reprend les résultats les plus importants obtenus dans la thèse. Et les orientations futures de la recherche sur l'utilisation des complexes NHC- gallium (III) sont discutées. / Recently, in order to develop alternative activation methods for Pi-systems in homogeneous catalysis instead of employing expensive and toxic noble metal catalysts, first row transition metals and main group metal complexes have attracted great attention. This thesis is a contribution to it, and we focus on gallium chemistry. There are three main aspects dominating this thesis: gallium(III) halides, well-defined gallium(III) complexes bearing N-heterocyclic carbenes (NHCs), and -systems activation in catalysis.The thesis is divided into three chapters. Chapter I provides an overview of the field of organic synthesis involving gallium(III) compounds, focusing on their use as - or -Lewis acids.In Chapter II, we expose our attempts to exploit the catalytic potential of gallium(III) chloride in a novel tandem cycloisomerization/Friedel-Crafts reaction. A section dedicated to the study on GaCl3-catalyzed alkyne hydration is also provided.Chapter III begins with a description of the synthesis of a series of gallium(III) complexes bearing various NHCs as ligands in order to overcome the limitations of gallium(III) halides in catalysis. Next, methodology studies on the tandem process involving 1,6-arenynes with the neutral and cationic gallium(III) complexes are described. The evaluation of scission kinetics for catalysts, substrates variation and influence of counteranions are discussed. In addition, efforts towards the asymmetric version of this tandem transformation and some other cyclizations are also presented.The concluding chapter reiterates the most important results obtained in the body chapters of the thesis. To conclude, the future directions for the research on the use of the NHC-gallium(III) complexes are discussed.
2

Electrochemical Manufacturing of Hydrocarbons from Carbon Dioxide Feedstock

Zhang, Tianyu 24 May 2022 (has links)
No description available.
3

Gold(I)-Catalyzed Synthesis of Polycyclic Frameworks Related to Terpenes: Selective Divergent Synthesis of Fused Carbocycles

Barabe, Francis 07 November 2013 (has links)
Gold catalysis has become an important tool to achieve highly chemoselective p-acid activation. Exceptional reactivity and selectivity are often encountered under mild reaction conditions. These properties have made gold(I) complexes suitable catalysts for tremendous applications in the total synthesis of natural products. The first chapter will highlight a number of total syntheses using gold catalysis as a key step. The second chapter will cover our application of the gold(I)-catalyzed 6-endo-dig carbocyclization for the synthesis of bridgehead-substituted scaffolds and its use toward the synthesis of PPAP natural products. This research has opened our eyes to the utility of biphenylphosphine ligands, particularly JohnPhos, in gold(I)-catalysis. The reactivity and selectivity exhibited by gold(I) complexes is modulated by the nature of the ancillary ligand. Recent research rationalizes the impact of these ligands on the divergent reactivity observed between cationic and carbenoid intermediates. Our desire to favor the 6-endo-dig pathway has led us toward the discovery of another example of the diagonal reactivity that NHC carbene and biphenylphosphine ligands can bring to gold(I)-catalysis. Chapter three will explain the development of a selective gold-catalyzed synthesis of fused carbocycles . Our selective divergent synthesis of fused carbocycles, combined with the Diels–Alder reaction, has brought new synthetic opportunities. Chapter four will describe our approach toward the synthesis of various polycyclic diterpene-related frameworks. Starting with a unique linear precursor, we have developed a new “one-pot” process for the synthesis of three different polycyclic compounds related to the terpenoid family. The facile modulation of the linear precursor and the use of different dienophiles during the Diels–Alder reaction could enable the synthesis of diverse polycyclic analogues based on three principal frameworks. The gold(I)-catalyzed synthesis of fused carbocycles reached some limitations during our study. Regioselective control was found to be substantially more challenging, with terminal alkynes or alkynes bearing a sterically and electronically neutral methyl substituent. In chapter five, we will discuss how the complementarity of silver(I) catalysis to gold(I) catalysis enabled the selective divergent synthesis of three different fused carbocycles from a unique precursor. Moreover, copper(I) catalysis has given access to the 6-endo-dig pathway on terminal alkynes without the formation of a vinylidene intermediate.
4

Využití alkenylboronových kyselin v tandemové cyklizaci/Suzukiho couplingu / Use of alkenylboronic acids in the tandem cyclisation/Suzuki cross-coupling

Klanicová, Kristýna January 2020 (has links)
This thesis deals with the synthesis of polycyclic compounds using tandem cyclisation/Suzuki cross-coupling, by modification of the method developed by our research group. This thesis mainly investigates the scope of the tandem reaction with aliphatic boronic acids or their esters. The products of the palladium catalyzed reaction then underwent electrocyclization to form an aromatic ring. The polycyclic skeleton, containing the aromatic core, is found in a considerable amount of natural substances with biological activity. The structure of the compounds prepared herein is similar to miltiorin D or commiphorane A.
5

Gold(I)-Catalyzed Synthesis of Polycyclic Frameworks Related to Terpenes: Selective Divergent Synthesis of Fused Carbocycles

Barabe, Francis January 2013 (has links)
Gold catalysis has become an important tool to achieve highly chemoselective p-acid activation. Exceptional reactivity and selectivity are often encountered under mild reaction conditions. These properties have made gold(I) complexes suitable catalysts for tremendous applications in the total synthesis of natural products. The first chapter will highlight a number of total syntheses using gold catalysis as a key step. The second chapter will cover our application of the gold(I)-catalyzed 6-endo-dig carbocyclization for the synthesis of bridgehead-substituted scaffolds and its use toward the synthesis of PPAP natural products. This research has opened our eyes to the utility of biphenylphosphine ligands, particularly JohnPhos, in gold(I)-catalysis. The reactivity and selectivity exhibited by gold(I) complexes is modulated by the nature of the ancillary ligand. Recent research rationalizes the impact of these ligands on the divergent reactivity observed between cationic and carbenoid intermediates. Our desire to favor the 6-endo-dig pathway has led us toward the discovery of another example of the diagonal reactivity that NHC carbene and biphenylphosphine ligands can bring to gold(I)-catalysis. Chapter three will explain the development of a selective gold-catalyzed synthesis of fused carbocycles . Our selective divergent synthesis of fused carbocycles, combined with the Diels–Alder reaction, has brought new synthetic opportunities. Chapter four will describe our approach toward the synthesis of various polycyclic diterpene-related frameworks. Starting with a unique linear precursor, we have developed a new “one-pot” process for the synthesis of three different polycyclic compounds related to the terpenoid family. The facile modulation of the linear precursor and the use of different dienophiles during the Diels–Alder reaction could enable the synthesis of diverse polycyclic analogues based on three principal frameworks. The gold(I)-catalyzed synthesis of fused carbocycles reached some limitations during our study. Regioselective control was found to be substantially more challenging, with terminal alkynes or alkynes bearing a sterically and electronically neutral methyl substituent. In chapter five, we will discuss how the complementarity of silver(I) catalysis to gold(I) catalysis enabled the selective divergent synthesis of three different fused carbocycles from a unique precursor. Moreover, copper(I) catalysis has given access to the 6-endo-dig pathway on terminal alkynes without the formation of a vinylidene intermediate.
6

Couplages pallado-catalysés de N-tosylhydrazones : synthèse d’oléfines apparentées à l’isocombrétastatine A4 / Palladium catalyzed coupling of N-tosylhydrazones : synthesis of olefines related to isocombretastatin A4

Roche, Maxime 04 December 2014 (has links)
Les travaux rapportés dans ce mémoire concernent le développement de nouveaux couplages pallado-catalysés de N-tosylhydrazones ainsi que leurs applications à la synthèse d’analogues de l’isocombrétastatine A4 (isoCA-4). La première partie du manuscrit est consacrée à l’étude de la réactivité de N-tosylhydrazones encombrées dans les couplages avec des halogénures d’aryle. Des conditions ont été mise au point afin d’avoir accès à des molécules 1,1-diaryléthylène ortho/ortho’-disubstituées en relation avec l’isoCA-4. Une autre partie de ce travail est dédiée au développement de réactions tandem impliquant une N-tosylhydrazone. Deux nouvelles transformations sont rapportées, une réaction tandem couplage de Barluenga-couplage de Buchwald-Hartwig, ainsi qu’une réaction tandem couplage de Barluenga-couplage de Suzuki-Miyaura. Dans le dernier chapitre, le couplage oxydatif d’indoles avec les N-tosylhydrazones a été examiné. Les N-vinylindoles synthétisés par ce couplage ont démontré des activités antiprolifératives prometteuses. / This thesis work concerns the development of new palladium catalyzed cross-coupling reactions of N-tosylhydrazones and their applications to the synthesis of isocombretastatin A4 (isoCA-4) analogs. The first part of this work is dedicated to the study of the reactivity of hindered N-tosylhydrazones in coupling with aryl halides. A protocol has been developed to synthesize ortho/ortho’-disubstituted 1,1-diarylethylenes related to isoCA-4. Another part of this thesis is dedicated to the development of tandem reactions involving N-tosylhydrazones. Two new reactions are reported, a Barluenga cross coupling-Buchwald-Hartwig cross coupling tandem reaction as well as a Barluenga cross coupling-Suzuki-Miyaura cross coupling tandem reaction. In the last chapter, oxidative coupling of indoles with N-tosylhydrazones was examined. N-vinylindoles synthesized by this way showed promising antiproliferative activities.
7

Application des processus de métathèse à la synthèse de produits naturels marins / Application of the metathesis reaction to the synthesis of marine natural products

Cros, Fanny 09 July 2010 (has links)
La réaction de métathèse a connu un essor considérable au cours de ces dernières années et le prix Nobel décerné aux chimistes Yves Chauvin, Robert H. Grubbs et Richard R.Schrock est venu récompenser ce travail. Cette réaction a été impliquée pour la synthèse de molécules naturelles d’origine marine. Les thiocyanatines A et B isolées en 2001 ont été ainsi préparées en utilisant la réaction de métathèse croisée. Il s’agit du premier exemple de métathèse en présence de groupements thiocyanates. De plus, ces deux synthèses utilisent la technologie micro-ondes. Le largazole, isolé en 2008, est une cible synthétique très important du fait de son activité anticancéreuse. Ce manuscrit retrace la synthèse d’une partie de cette molécule mais également une étude méthodologique pour la formation de motifs thiazoles par micro-ondes. Enfin, la rugulactone, isolée en 2009, a été préparée selon une stratégie tandem de métathèse cyclisante / métathèse croisée et cette dernière a été appliquée à la synthèse d’analogues. / The metathesis realized an important development during the last few years and the Nobelprize given to the chemists Yves Chauvin, Robert H. Grubbs et Richard R. Schrock came toreward this work. This reaction has been involved for the synthesis of natural molecules of marine origin. Thiocyanatines A and B, isolated in 2001, have been so prepared by using the reaction of cross metathesis. This is the first example of metathesis with the presence ofthiocyanates groups. Moreover, these two syntheses are using the microwave technology. Largazole, isolated in 2008, is a very important synthetic target because of its anticancerous activity. This manuscript is explaining the synthesis of one part of this molecule but it also provides a methodological study for the formation of thiazoles motives by microwave. Then,Rugulactone, isolated in 2009, has been prepared with a tandem strategy of ring clossing metathesis / cross metathesis and this one has been applied to the synthetis of analogues.
8

Dynamic Systems: Evaluation, Screening and Synthetic Application

Sakulsombat, Morakot January 2011 (has links)
The research work reported in the thesis deals with the development of dynamic covalent systems and their applications in evaluation and screening of protein-ligands and enzyme inhibitors, as well as in synthetic methodologies. The thesis is divided into four parts as described below. In part one, synthetic methodologies to access 3-functionalized phthalides and 3-thioisoindolinones using the concept of cascade reactions are demonstrated. Efficient syntheses of the target products are designed and performed in one-pot process under mild reaction conditions.  In part two, phosphine-catalyzed disulfide metathesis for the generation of dynamic carbohydrate system in aqueous solution is demonstrated. In the presence of biological target (Concanavalin A), the optimal dynamic ligand is successfully identified in situ by the 1H STD-NMR spectroscopy. In part three, lipase-catalyzed resolutions of dynamic reversible systems using reversible cyanohydrin and hemithioacetal reactions in one-pot processes are demonstrated. The dynamic systems are generated under thermodynamic control in organic solution and subsequently resolved by lipase-mediated resolution under kinetic control. The resolution processes resulted in the lipase-selected substrates with high structural and stereochemical specificities. In the last part, dynamic fragment-based strategy is presented using β-galactosidase as a model target enzyme. Based on our previous study, the best dynamic inhibitor of β-galactosidase was identified using 1H STD-NMR technique from dynamic hemithioacetal systems. The structure of the dynamic inhibitor is tailored by fragment linking and optimization processes. The designed inhibitor structures are then synthesized and tested for inhibition activities against β-galactosidase. / QC 20110526
9

Nouvelles réactions à économie d'atomes et d'étapes basées sur la catalyse par des nanoparticules d'or et la multicatalyse. Applications dans la synthèse de chimie fine et des odorants / Novel atom- and step-economical reactions based on gold nanoparticles catalysis and multicatalysis. Applications in the synthesis of fine chemicals and odorants

Giorgi, Pascal 12 December 2017 (has links)
L'élaboration de méthodes de synthèse, basées sur l’utilisation d’espèces métalliques a été un sujet de tous les instances en chimie organique. Malgré l’efficacité des métaux utilisés en catalyse homogènes, leurs procédures de recyclage restent limitées. Ce pourquoi, une contrainte supplémentaire a été placée dans la conception de catalyseurs, pouvant offrir à la fois l'efficacité de la catalyse homogène et le recyclage de l’hétérogène. Dans ce contexte, les nanoparticules métalliques sont apparues comme objet phare, en raison de leurs propriétés physico-chimiques inégalées. On a découvert que les nanoparticules de métaux nobles présentaient des propriétés catalytiques similaires dans certains cas, aux complexes monoatomiques. De plus, les Au NPs ont montré une activité catalytique remarquable dans l'oxydation d’alcools activés sous O2. Nous avons donc envisagé des procédures multicatalytiques, basées sur les NPs d’Au. Notre choix d'utiliser des catalyseurs solides était pertinent, puisque les nano-catalyseurs, pour lesquels la fraction de sites actifs se trouve en surface, limitent les risques de cross-quenching. Ici, nous présentons trois nouveaux procédés bicatalytiques permettant l’accès, à des chromenes/quinoléines (53-93%) via une oxydation / Michael Addition/ aldolisation, combinant nanocatalyse et catalyse basique, l’accès à des ortho-THC (50-81%) via oxydation / arylation / cyclisation, combinant nanocatalyse et catalyse supportée, ainsi qu’une une oxydation / hydrolyse en cascade, pour accéder à l’HMLA (86%, sel 93%), un grand panel de produits d'activité biologique reconnue, utilisé en parfumerie ou visant une pré-industrialisation via la chimie en flux continu. / Elaboration of synthetic methods based on metal-catalyzed reactions has been a hot topic in organic chemistry. Despite good efficiency, catalysis proceeding homogeneously, are limited in the operation of recovering/recycling of the catalysts. An important stress was placed to design catalysis, offering both the efficiency of homogeneous catalysts and the recyclability of heterogeneous catalysts. In this context, metal nanoparticles merged as a key tool, due to their unique physical and chemical properties. Notably, Au NPs have shown remarkable catalytic activity in the oxidation of activated alcohols under O2 atmosphere. Since now, the access to more complex molecules is the next step forward for this field, we envisioned multicatalytic roads, based on the oxidation of activated alcohols via supported Au NPs. Our choice of using solid catalysts was relevant, since nanostructured catalysts for which the fraction of active sites are located on the surface, limit the risk of cross-quenching. The latter carbonyl formed, could be further converted in situ, via tandem protocol. Herein, we developed novel, atom- and step-economical bicatalytic one-pot processes, to access substituted chromenes/quinolines (53-93%) by tandem oxidation/hetero-Michael addition/aldolisation combining nanocatalysis and base catalysis, ortho-THCs (50-81%) via tandem oxidation/arylation/cyclisation combining nanocatalysis and supported catalysts and a tandem cascade oxidation/hydrolysis to access HMLA (86%, sel 93%). A large panel of products of biological activity relevance, pertaining to the fragrance chemistry or aiming in some cases, pre-industrial scalability via continuous flow applications.
10

Activation de liaisons C-H au moyen d’un système catalytique bio-inspiré pour la synthèse d’hétérocycles d’intérêt pharmacologique / Activation of C-H bonds through a bioinspired catalytic system for the synthesis of pharmacologically relevant heterocycles

Nguyen, Khac Minh Huy 10 February 2016 (has links)
Les métalloenzymes d’origine naturelle constituent une riche source d’inspiration pour la conception de catalyseurs synthétiques en raison de leur capacité à réaliser des réactions d’oxydation sélective dans des conditions douces. Parmi ces métalloenzymes, les amine-oxydases à cuivre (CuAOs) permettent l’oxydation sélective des amines primaires grâce à la coopération d’un catalyseur organique quinonique (topaquinone) et d’un ion cuivrique. Récemment, un regain d’intérêt s’est manifesté pour le développement de catalyseurs biomimétiques permettant l’oxydation des amines en imines à l’air ambiant, en raison de l’importance des imines comme intermédiaires de synthèse en chimie fine et en pharmacologie. Au laboratoire, un système co-catalytique mimant l’activité des CuAOs a été décrit pour l’oxydation, à l’air ambiant, des amines primaires en imines, permettant une forte économie d’atomes. Le procédé catalytique comprend deux couples redox comparables à ceux des CuAOs : le catalyseur organique o-iminoquinonique 1ox, généré in situ à partir de l’o-aminophénol correspondant 1red, est le véritable catalyseur de l’oxydation de l’amine substrat, tandis que le sel de cuivre (II) sert de médiateur redox. Il est intéressant de noter que de faibles quantités de sel de cuivre (II) biocompatible et de catalyseur organique 1ox suffisent à activer la liaison C-H située en α de la fonction NH2 des amines primaires aliphatiques, qui sont converties, à l’air ambiant, en imines issues du couplage hétérolytique, à l’issue d’un processus de transamination qui conduit à l’imine résultant du couplage homolytique, suivi d’une réaction de transimination. Les conditions douces utilisées sont particulièrement intéressantes d’un point de vue synthétique, notamment pour engager les alkylimines instables in situ dans des réactions subséquentes. Aussi, avons-nous envisagé d’utiliser ce système co-catalytique bioinspiré dans la synthèse one-pot d’hétérocycles d’intérêt pharmacologique. Dans la première partie de la thèse, nous avions l’intention d’utiliser le système co-catalytique Cu(II)/1ox dans la synthèse de nouveaux dérivés de la 1,4-benzoxazine. Dans le cas particulier des amines primaires de type R1R2CHCH2NH2, le processus catalytique se trouvait bloqué après un certain nombre de cycles catalytiques en raison de l’engagement du catalyseur 1ox dans une réaction de Diels-Alder à demande électronique inverse avec la forme énamine tautomère de l’imine éliminée au cours du processus catalytique, conduisant ainsi aux dérivés de la 1,4-benzoxazine. Toutefois, l’utilisation de ce procédé s’avéra un échec, les énamines générées étant trop instables à l’air ambiant pour permettre l’isolement des dérivés de la 1,4-benzoxazine avec des rendements acceptables. Nous avons ainsi été amenés à développer une réaction alternative en tandem : les dérivés o-aminophénols sont oxydés dans le méthanol sous atmosphère d’azote, à l’aide d’une quantité stoechiométrique de dioxyde de manganèse activé, en o-iminoquinones. Ces hétérodiènes sont ensuite piégés in situ par différentes énamines diénophiles pour conduire aux dérivés de la 1,4-benzoxazine attendus, dans des conditions douces. La possibilité d’introduire des éléments de diversité dans chacun des partenaires de la cycloaddition permet de préparer des dérivés de la 1,4-benzoxazine hautement substitués. Parmi ces composés, un dérivé présentant deux groupements phényle en position 3 s’est avéré présenter une activité neuroprotectrice notable chez la souris nouveau-né, faisant de lui un candidat potentiel pour le traitement et la prévention de la paralysie cérébrale du nouveau-né. Dans la seconde partie de la thèse, le système co-catalytique Cu(II)/1ox est utilisé dans une réaction de couplage oxydatif d’amines primaires, activées ou non, avec des o-aminoanilines conduisant ainsi à des dérivés du benzimidazole d’intérêt biologique au travers d’un procédé multi-étapes. (...) / Naturally occurring metalloenzymes constitute a rich source of inspiration for the design of synthetic catalysts because of their ability to perform controlled aerobic oxidations under very mild conditions. Among metalloenzymes, copper amine oxidases (CuAOs) promote selective aerobic oxidation of primary amines through the cooperation of a quinone-based cofactor (topaquinone) and a copper ion. Recently, there has been a boost in the development of biomimetic catalysts for the aerobic oxidation of amines to imines owing to the importance of imines as pivotal intermediates in the synthesis of fine chemicals and pharmaceuticals. In our laboratory, a CuAOs-like homogeneous co-catalytic system has been described for the atom-economical oxidation of primary amines to imines, under ambient air. The catalytic process combines two redox couples in a way reminiscent of CuAOs: the o-iminoquinone organocatalyst 1ox, generated in situ from the corresponding o-aminophenol 1red, is the substrate-selective catalyst, whereas the copper (II) salt serves as an electron transfer mediator. Interestingly, low loadings of biocompatible CuII and organocatalyst 1ox are sufficient to activate the α-C-H bond of primary aliphatic amines, which are converted, under ambient air, into cross-coupled imines through a transamination process that leads to the homocoupled imine intermediate, followed by dynamic transimination. The mild reaction conditions are highly favorable from a synthetic viewpoint, in particular for trapping the unstable alkylimines in situ for further reactions. So, we have envisioned the use of this bioinspired co-catalytic system in the one-pot synthesis of heterocycles of pharmacological interest. In the first part of the thesis, we envisioned that the Cu(II)/1ox cooperative system might be utilized to synthesize novel 1,4-benzoxazine derivatives. In the specific case of R1R2CHCH2NH2 amines, the catalytic process should stop after a few turnovers, because the catalyst 1ox should be trapped through inverse-electron-demand Diels-Alder (IEDDA) reaction with the simultaneously in situ generated tautomeric enamine form of the alkylimine extruded during the catalytic process, leading to 1,4-benzoxazine derivatives. Unfortunately, this protocol failed to produce the expected cycloadducts in acceptable yields as enamines rapidly decomposed under ambient air. For this reason, we have developed a tandem oxidation-inverse electron demand Diels-Alder reaction as an alternative: a stoichiometric amount of activated MnO2, in deaerated methanol, was then sufficient to convert various o-aminophenol derivatives into o-iminoquinone heterodienes which were trapped in situ by different enamine dienophiles leading to the expected 1,4-benzoxazine derivatives under mild conditions. The possibility of introducing variations in both cycloaddition partners led to highly substituted 1,4-benzoxazine cycloadducts with up to five elements of diversity. Among these compounds, a 3,3-diphenyl-substituted-1,4-benzoxazine derivative was identified as an effective neuroprotective agent in newborn mice, suggesting that it could be a potential candidate for the treatment and prevention of cerebral palsy. In the second part of the thesis, the Cu(II)/1ox cooperative system has been successfully used for the catalytic oxidative coupling of a diverse range of activated and non-activated primary amines with o-amino-anilines under ambient air leading to benzimidazoles of biological interest through multistep oxidation and nucleophilic addition reactions. Through the variation of both solvent and coupling partners, MeOH proved to be the best solvent for this transformation because it provided the ideal balance of 1ox solvation and reaction rate, except when reactive N-alkyl o-aminoanilines were used as in situ imine traps, due to the concomitant formation of a benzimidazole byproduct originated from MeOH itself. (...)

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