Isaac is now in Bologna (Dipartimento di Chimica industriale “Toso Montanari”, Università di Bologna) as a postdoctoral researcher, working with Dr. Luca Bernardi.
Last week, we said goodbye to him having a drink and laughing with his jokes!
Enjoy and learn a lot!!!
Un bacio, caro 😉
Manel, Fanny, Isaac, Esther, Sara, Sandra, Maru, Fernando, Raquel, Athar, Guillermo
Hydrogen bonding and Internal or External Lewis or Brønsted Acid Assisted (Thio)urea Catalysts, Gimeno, M. C.; Herrera, R. P. Eur. J. Org. Chem. 10.1002/ejoc.201901344
Abstract. The obtainment of more active organocatalysts has promoted the search for new modes of activation and new organocatalytic systems. Inspired on the mode of activation of enzymes, organocatalysis has recently focused on the challenge to create an enzyme-like ‘active site’ giving access to hydrogen bond donors (HBDs) with enhanced activity. Therefore, the assembly of catalytic species, connected through multiple weak inter- or intramolecular interactions, is a young and emerging topic of research which could become in the future a powerful tool for asymmetric catalysis. In the area of (thio)ureas, different alternatives such as internal hydrogen bonds or the use of an internal or an external Lewis or Brønsted acid assisted catalysts have been developed. The pivotal publications recently reported covering this family of organocatalysts are proof of this importance. This review treats to illustrate these important and scarce examples and to show a plausible mode of activation for each one.
Posted in Hydrogen-bonding, Organocatalysis, Publication, Raquel P. Herrera, Review, Thiourea, Urea
Tagged 2019, Activation, Asymmetric organocatalysis, Brønsted acid, Lewis acid, Organocatalyst, Prof. Gimeno, Publication, Raquel P. Herrera, Review, Thiourea
Synthesis, structural determination and catalytic study of a new 2-D chloro-substituted zinc phosphate, (C8N2H20)[ZnCl(PO3(OH))]2, Rayes, A.; Herrera, R. P.; Moncer, M.; Ara, I.; Calestani, G.; Ayed, B.; Mezzadri, F. J. Mol. Struct. 2019, https://doi.org/10.1016/j.molstruc.2019.127216
Abstract. A novel chloro-substituted zinc-phosphate, (C8N2H20)[ZnCl(PO3(OH)]2, has been synthesized by a slow evaporation method in the presence of 1,3-cyclohexanebis- (methylamine), which acts as a template. The structure consists of vertex linked ZnO3Cl and PO3(OH) tetrahedral, assembled into corrugated porous layers [ZnCl(PO3(OH))2]∞ with (4.82) topology. The optical properties were also investigated using Diffuse Reflecting Spectroscopy (DRS), showing that the title compound has semiconducting properties. In addition, the catalytic activity of (C8N2H20)[ZnCl(PO3(OH))]2 has been tested in the acetalisation reaction of aldehydes. The title compound displayed a high catalytic activity with practically total conversion in many examples using MeOD as solvent and as the sole source of acetalisation. More importantly, the reaction crudes are very clean and only the preferred products are found in the NMR spectra.
Zinc-phosphate, Open framework structure, Chloride-substitution, X-ray diffraction, Spectroscopic techniques, Catalytic activity
Posted in Publication, Raquel P. Herrera, Research
Tagged 2019, Ali Rayes, Catalysis, Chloride-substitution, Collaboration, Irene Ara, J. Mol. Struct., Open framework structure, Publication, Raquel P. Herrera, Spectroscopic techniques, University of Gabes, URCMEP, X-ray diffraction, Zinc-phosphate
This week (October, 22-25th), Prof. Fillipe Vieira Rocha from Federal University of São Carlos (Brasil), has visited our University invited by Prof. Gimeno.
His mission is to promote their internationalization program (UFSCar PrInt) that supports, encourages and consolidates the graduate Programs, having identified 5 priority research areas. Specially, he is actively working for Integrated Technologies for Health: from Prevention to Rehabilitation Theme, which integrated Chemistry Department.
During few days (October, 23-25th) ISQCH members have been in Jaca (Huesca), re-thinking the institute in terms of chemistry and organization.
Raquel told us about Visualization and Internationalization, a part of about HOCA CHEMISTRY. She took us through her pasionated talks!
Raquel, Conchita, Fillipe, Maru (left to right).
Last fridey (October, 18th), two HOCA members got married!
Congrats, Isaac and Sandra! 😉
May the CHEMISTRY be with you!
Sara and Pablo, the youngest HOCA members, did their final exams last wenesday (september, 25th) and now they are ready to get their B.Sc. Diplomes.
Organic Privileged Scaffolds with Anticancer Activity: Synthesis through Organocatalytic Procedures. Sara Gil.
Design and synthesis of chiral organocatalysts and study of their applications. Pablo Murillo.
Of course, we celebrated it together around the table.
Sara, Raquel, Maru, Isaac, Pablo and Fernando (from left to right).
Posted in B.Sc. Thesis, Defense, Having fun
Tagged 2019, Asymmetric organocatalysis, aza-Henry, aza-Michael, B.Sc. Thesis, Cancer, Chiral proton catalyst, Heterocycle, Japanese restaurant, Johnston catalyst, Pablo Murillo, privileged scaffolds, Sara Gil, TFG
Thiolate Bridged Gold(I) NHC Catalysts: New Approach for Catalyst Design and its Application Trapping Catalytic Intermediates, Visbal, R.; Herrera, R. P.; Gimeno, M. C. Chem. Eur. J. 2019, https://doi.org/10.1002/chem.201903494
Abstract. Novel dinuclear N ‐heterocyclic gold complexes with bridging thiolate ligands have been designed to be catalytic precursors with desired properties such as stability, recyclability and the no necessity of additives. The dinuclear species [(AuNHC) 2 (µ‐SC 6 F 5 )]OTf are complexes that could slowly release the active catalytic species AuNHC + and the precursor [Au(SC 6 F 5 )(NHC)] in solution, which means that both species would maintain stable during all catalytic cycle and the pre‐catalyst could easily be recovered. These properties shown by the complexes have been taken advantage to get new insights in the gold catalyzed hydroalkoxylation of alkynes, with the aim of clarifying all the steps of the catalytic cycle, together with the characterization of intermediates and final products. Isolation and characterization of the pure final spiroketals and the thermodynamic intermediate have been achieved for the first time. Moreover, the kinetic intermediate has been also detected for the first time.
Keywords. N-Heterocyclic carbenes, gold catalysis, hydroalkoxylation reactions, reaction mechanism, cyclization reactions