Continuous niobium phosphate catalysed Skraup reaction for quinoline synthesis from solketal

Solketal is derived from the reaction of acetone with glycerol, a by-product product of the biodiesel industry. We report here the continuous reaction of solketal with anilines over a solid acid niobium phosphate (NbP), for the continuous generation of quinolines in the the well-established Skraup reaction. This study shows that NbP can catalyse all stages of this multistep reaction at 250 °C and 10 MPa pressure, with a selectivity for quinoline of up to 60%. We found that the catalyst eventually deactivates, most probably via a combination of coking and reduction processes but nevertheless we show the promise of this approach. We demonstrated here the application of our approach to synthesize both mono- and bis-quinolines from the commodity chemical, 4,4’-methylenedianiline

Continuous photo-oxidation in a vortex reactor: efficient operations using air drawn from the laboratory

We report the construction and use of a vortex reactor which uses a rapidly rotating cylinder to generate Taylor vortices for continuous flow thermal and photochemical reactions. The reactor is designed to operate under conditions required for vortex generation. The flow pattern of the vortices has been represented using computational fluid dynamics, and the presence of the vortices can be easily visualized by observing streams of bubbles within the reactor. This approach presents certain advantages for reactions with added gases. For reactions with oxygen, the reactor offers an alternative to traditional setups as it efficiently draws in air from the lab without the need specifically to pressurize with oxygen. The rapid mixing generated by the vortices enables rapid mass transfer between the gas and the liquid phases allowing for a high efficiency dissolution of gases. The reactor has been applied to several photochemical reactions involving singlet oxygen (1O2) including the photo-oxidations of α-terpinene and furfuryl alcohol and the photodeborylation of phenyl boronic acid. The rotation speed of the cylinder proved to be key for reaction efficiency, and in the operation we found that the uptake of air was highest at 4000 rpm. The reactor has also been successfully applied to the synthesis of artemisinin, a potent antimalarial compound; and this three-step synthesis involving a Schenk-ene reaction with 1O2, Hock cleavage with H+, and an oxidative cyclization cascade with triplet oxygen (3O2), from dihydroartemisinic acid was carried out as a single process in the vortex reactor

Remote-controlled experiments with cloud chemistry

Developing cleaner chemical processes often involves sophisticated flow-chemistry equipment that is not available in many economically developing countries. For reactions where it is the data that are important rather than the physical product, the networking of chemists across the internet to allow remote experimentation offers a viable solution to this problem

Conception et synthèse d'analogues pyrrolidiniques d'alcaloïdes de Lobelia comme ligands potentiels des récepteurs nicotiniques centraux à l'acétylcholine

The present work has been dedicated to the development of convergent and diastereoselective routes for the preparation of pyrrolidine Lobelia alkaloid analogues as novel neuronal nicotinic receptors. We have settled a selective bidirectional strategy based on chain homologation by double olefination followed by aza-Michael reactions as a straightforward access to 2,5-cis-disubstituted pyrrolidines that was extended to the synthesis of 2,6-cis-piperidines. Additional studies have been carried out in order to drive chemoselectivities in the course of competitive tandem aza-Michael-induced ring closure reactions. In the same time, we also described a monodirectional route to access 2,5-trans-disubstituted pyrrolidines. The last part of this manuscript has been finally dedicated to a prospective reductive desymmetrization study for the rapid and enantioselective synthesis of pyrrolobeline homologues.Au cours de ce travail, nous nous sommes intéressés à développer des voies de synthèse convergentes et diastéréosélectives en vue de préparer des analogues pyrrolidiniques des alcaloïdes de Lobelia comme nouveaux ligands des récepteurs nicotiniques centraux à l’acétylcholine. Ainsi, nous avons mis au point une méthode « bidirectionnelle » basée sur des réactions de double aza-Michael et donnant accès à des pyrrolidines 2,5-disubstituées. Une étude de réactivité a également été mené afin d’améliorer la chimiosélectivité des différents processus réactionnels impliquant des réactions d’aza-Michael dans des séquences de cyclisation tandem. Dans un second temps, nous avons décrit une voie dite « d’élongation monodirectionnelle » permettant d’accéder à des 2,5-trans-pyrrolidines énantiopures. Enfin, la dernière partie de ce manuscrit aborde une étude prospective de réductions désymétrisantes pour la synthèse d’homologues pyrrolidiniques de la lobéline

Conception and synthesis of pyrrolidine analogues of Lobelia alkaloids as potential neuronal nicotinic acetylcholine receptors

Au cours de ce travail, nous nous sommes intéressés à développer des voies de synthèse convergentes et diastéréosélectives en vue de préparer des analogues pyrrolidiniques des alcaloïdes de Lobelia comme nouveaux ligands des récepteurs nicotiniques centraux à l’acétylcholine. Ainsi, nous avons mis au point une méthode « bidirectionnelle » basée sur des réactions de double aza-Michael et donnant accès à des pyrrolidines 2,5-disubstituées. Une étude de réactivité a également été mené afin d’améliorer la chimiosélectivité des différents processus réactionnels impliquant des réactions d’aza-Michael dans des séquences de cyclisation tandem. Dans un second temps, nous avons décrit une voie dite « d’élongation monodirectionnelle » permettant d’accéder à des 2,5-trans-pyrrolidines énantiopures. Enfin, la dernière partie de ce manuscrit aborde une étude prospective de réductions désymétrisantes pour la synthèse d’homologues pyrrolidiniques de la lobéline.The present work has been dedicated to the development of convergent and diastereoselective routes for the preparation of pyrrolidine Lobelia alkaloid analogues as novel neuronal nicotinic receptors. We have settled a selective bidirectional strategy based on chain homologation by double olefination followed by aza-Michael reactions as a straightforward access to 2,5-cis-disubstituted pyrrolidines that was extended to the synthesis of 2,6-cis-piperidines. Additional studies have been carried out in order to drive chemoselectivities in the course of competitive tandem aza-Michael-induced ring closure reactions. In the same time, we also described a monodirectional route to access 2,5-trans-disubstituted pyrrolidines. The last part of this manuscript has been finally dedicated to a prospective reductive desymmetrization study for the rapid and enantioselective synthesis of pyrrolobeline homologues

Place des alcaloïdes de lobelia dans les thérapeutiques dopaminergiques

CHATENAY M.-PARIS 11-BU Pharma. (920192101) / SudocSudocFranceF

Applications of Sensitized Semiconductors as Heterogeneous Visible-Light Photocatalysts in Organic Synthesis

International audienceThe industrial transition to more-sustainable chemical manufacturing requires the development of a variety of highperformance heterogeneous catalysts. Recently, new classes of heterogeneous and recyclable catalysts that exploit visible-light activation have emerged in the field of organic synthesis. Among these systems, sensitized semiconductors occupy a strategic place as they are able to initiate single electron transfer processes under heterogeneous conditions and using medium-to-low energy light activation. This technology can promote a range of synthetically useful reactions, such as oxidations, reductions, or additions, including C−C bond formation, under very mild conditions and with high selectivity. Sensitized semiconductors have been known for decades in solar cell technologies (the so-called "Dye-Sensitized Solar Cells") but applications in organic synthesis are only very recent. This Review provides a comprehensive overview of the mechanisms, reactivity, and scope of this technology, with a focus on their new and promising synthetic applications

Performances of Homogeneous and Heterogenized Methylene Blue on Silica Under Red Light in Batch and Continuous Flow Photochemical Reactors

International audienceMethylene blue was efficiently immobilized on silica micro- and nanoparticles by electrostatic interactions and the performances of the heterogenized photocatalysts were compared against the homogeneous conditions using the photooxidation of citronellol as a model reaction under red light, in a batch and a continuous flow photochemical reactor. In batch, the heterogeneous photocatalyst outperforms the homogeneous one, presumably due to kinetic and stability effects. The two catalytic systems are also compared in a flow reactor displaying improved mass transfer properties. We demonstrate that this results in a dramatic enhancement in photocatalyst stability, reactivity and productivity. This study highlights the importance of photocatalyst stability under homogeneous versus heterogenized conditions and in batch versus flow photochemistry

Photocatalysis on magnetic supports for singlet oxygen generation: Role of immobilization and photobleaching

International audienceOrganometallic photosensitizers are very efficient triplet sensitizers that have found wide use in photocatalysis, but they are scarce, toxic, and expensive. Organic fluorophores have also been used in several systems, but they can suffer from lower efficiency and sensitivity to photobleaching. In this work, we immobilized ruthenium (II) tris(bipyridine) and rose bengal on magnetic nanosupports and compared their activity and photostability in the singlet oxygen mediated photooxidation of citronellol. Both systems can perform the transformation with equivalent turnover frequencies and be magnetically recovered. We studied their long-term stability and found photobleaching to be a major cause of photocatalyst deactivation over time for both systems, and we were able to improve their photostability upon immobilization on solid supports

Solvent-free double aza-Michael under ultrasound irradiation: diastereoselective sequential one-pot synthesis of pyrrolidine Lobelia alkaloids analogues.

International audienceNovel 2,5-meso-pyrrolidines have been straightforwardly synthesized from readily available symmetrical double Michael acceptors. The key step rested on an aza-Michael addition of primary alkylamines to bis-enones. Competitive Rauhut-Currier and aza-Michael reactions have been highlighted in protic solvent. Ultrasound activation associated with solvent-free conditions led to the expected pyrrolidines in quantitative yields and excellent stereoselectivities. The optimized conditions have been extended to the sonochemical synthesis of pyrrolidine Lobelia alkaloids analogues in short sequences