Search

Your search keyword '"Olivo, Giorgio"' showing total 153 results
Start Over Author "Olivo, Giorgio"
153 results on '"Olivo, Giorgio"'

3. Homogeneous Iron Catalyzed C−H Amination.

Author

Possenti, Dario and Olivo, Giorgio

Subjects
*IRON oxidation, *OXIDATION states, *ORGANIC compounds, *LIGANDS (Chemistry), *NITRENES
Abstract

Iron‐catalyzed C−H amination is emerging as an attractive and sustainable method to install amine functionalities into organic compounds. Amination of C(sp3)−H bonds is usually mediated by an iron‐nitrene intermediate via a Hydrogen Atom Abstraction/Radical Recombination mechanism reminiscent of biomimetic C−H oxidation. Accordingly, this transformation can be catalyzed by engineered iron enzymes, heme and nonheme iron complexes as well as iron salts, although it is often limited to intramolecular reactions and/or activated positions. Aromatic C(sp2)−H amination is mediated by addition of electrophilic iron nitrenes or protonated N‐radical intermediates (produced with Fe catalysts) to aromatic systems. Again, high selectivity is obtained via (pseudo) intramolecular reactions. From a mechanistic perspective, several iron nitrene intermediates have been isolated and characterized over the years in different ligand scaffolds and iron oxidation states. Structure‐activity correlations have been drawn only in few cases and point to a key role of the spin density on the nitrene ligand and of the iron oxidation state. This review describes the state of the art for homogeneous iron catalyzed C(sp3)−H and C(sp2)−H amination focusing on the last 5 years (2019–2023) from a mechanism‐driven catalyst design perspective. [ABSTRACT FROM AUTHOR]

Published
2024
Full Text
View/download PDF

6. Kinetic and Product Study of the S‐oxidation vs HAT Chemoselectivity in Reactions Promoted by Nonheme Iron(IV)‐oxo Complex/NHPI Mediator System

Author

Di Berto Mancini, Marika, primary, Bernardini, Marianna, additional, Emanuel Birzu, Beniamin, additional, De Santis, Arianna, additional, Di Stefano, Stefano, additional, Frateloreto, Federico, additional, Khaksar, Daria, additional, Lapi, Andrea, additional, Olivo, Giorgio, additional, and Lanzalunga, Osvaldo, additional

Published
2023
Full Text
View/download PDF

9. Carboxylic Acid Directed γ-Lactonization of Unactivated Primary C–H Bonds Catalyzed by Mn Complexes: Application to Stereoselective Natural Product Diversification

Author

Call, Arnau, primary, Cianfanelli, Marco, additional, Besalú-Sala, Pau, additional, Olivo, Giorgio, additional, Palone, Andrea, additional, Vicens, Laia, additional, Ribas, Xavi, additional, Luis, Josep M., additional, Bietti, Massimo, additional, and Costas, Miquel, additional

Published
2022
Full Text
View/download PDF

20. Enantioselective C-H lactonization of unactivated methylenes directed by carboxylic acids

Author

Cianfanelli, Marco, Olivo, Giorgio, Milan, Michela, Klein Gebbink, Robertus J.M., Ribas, Xavi, Bietti, Massimo, Costas, Miquel, Sub Organic Chemistry and Catalysis, Organic Chemistry and Catalysis, Agencia Estatal de Investigación, Sub Organic Chemistry and Catalysis, and Organic Chemistry and Catalysis

Subjects
Oxidation-reduction reaction, 010405 organic chemistry, Chemistry, C-H oxidation, enantioselectivity, catalyst design, organic synthesis, Enantioselective synthesis, General Chemistry, 010402 general chemistry, 01 natural sciences, Biochemistry, Redox, Combinatorial chemistry, Catalysis, 0104 chemical sciences, Settore CHIM/06, Colloid and Surface Chemistry, Reacció d'oxidació-reducció, Product (mathematics), Taverne, Chemoselectivity
Abstract

The formidable challenges of controlling site-selectivity, enantioselectivity, and product chemoselectivity make asymmetric C-H oxidation a generally unsolved problem for nonenzymatic systems. Discrimination between the two enantiotopic C-H bonds of an unactivated methylenic group is particularly demanding and so far unprecedented, given the similarity between their environments and the facile overoxidation of the initially formed hydroxylation product. Here we show that a Mn-catalyzed C-H oxidation directed by carboxylic acids can overcome these challenges to yield γ-lactones in high enantiomeric excess (up to 99%) using hydrogen peroxide as oxidant and a Brønsted acid additive under mild conditions and short reaction times. Coordination of the carboxylic acid group to the bulky Mn complex ensures the rigidity needed for high enantioselectivity and dictates the outstanding γ site-selectivity. When the substrate contains nonequivalent γ-methylenes, the site-selectivity for lactonization can be rationally predicted on the basis of simple C-H activation/deactivation effects exerted by proximal substituents. In addition, discrimination of diastereotopic C-H bonds can be modulated by catalyst design, with no erosion of enantiomeric excess. The potential of this reaction is illustrated in the concise synthesis of a tetrahydroxylated bicyclo[3.3.1]nonane enabled by two key, sequential γ-C-H lactonizations, with the latter that fixes the chirality of five stereogenic centers in one step with 96% ee Support by the Spanish Ministry of Science (PGC2018-101737-B-I00 to M.C. and J.d.C. grant to G.O., FJCI-2016-30243), and Gen-eralitat de Catalunya (ICREA Academia Award to M.C. and 2014SGR 862), and from EU (MSCA-ITN-2015 Action NoNoMeCat, 675020) is acknowledged

Published
2020

21. Enantioselective C-H Lactonization of Unactivated Methylenes Directed by Carboxylic Acids

Author

Sub Organic Chemistry and Catalysis, Organic Chemistry and Catalysis, Cianfanelli, Marco, Olivo, Giorgio, Milan, Michela, Klein Gebbink, Robertus J.M., Ribas, Xavi, Bietti, Massimo, Costas, Miquel, Sub Organic Chemistry and Catalysis, Organic Chemistry and Catalysis, Cianfanelli, Marco, Olivo, Giorgio, Milan, Michela, Klein Gebbink, Robertus J.M., Ribas, Xavi, Bietti, Massimo, and Costas, Miquel

Published
2020

22. Remote Amino Acid Recognition Enables Effective Hydrogen Peroxide Activation at a Manganese Oxidation Catalyst.

Author

Vicens, Laia, Olivo, Giorgio, and Costas, Miquel

Subjects
*MANGANESE catalysts, *HYDROGEN peroxide, *AMINO acids, *CATALYSTS, *CATALYST structure, *CARBOXYLIC acids, *ACID catalysts, *OXYGENASES
Abstract

Precise delivery of a proton plays a key role in O2 activation at iron oxygenases, enabling the crucial O−O cleavage step that generates the oxidizing high‐valent metal–oxo species. Such a proton is delivered by acidic residues that may either directly bind the iron center or lie in its second coordination sphere. Herein, a supramolecular strategy for enzyme‐like H2O2 activation at a biologically inspired manganese catalyst, with a nearly stoichiometric amount (1–1.5 equiv) of a carboxylic acid is disclosed. Key for this strategy is the incorporation of an α,ω‐amino acid in the second coordination sphere of a chiral catalyst via remote ammonium‐crown ether recognition. The properly positioned carboxylic acid function enables effective activation of hydrogen peroxide, leading to catalytic asymmetric epoxidation. Modulation of both amino acid and catalyst structure can tune the efficiency and the enantioselectivity of the reaction, and a study on the oxidative degradation pathway of the system is presented. [ABSTRACT FROM AUTHOR]

Published
2022
Full Text
View/download PDF

27. Predictable Selectivity in Remote C-H Oxidation of Steroids: Analysis of Substrate Binding Mode.

Author

Olivo, Giorgio, Capocasa, Giorgio, Ticconi, Barbara, Lanzalunga, Osvaldo, Di Stefano, Stefano, and Costas, Miquel

Subjects
*OXIDATION, *CATALYSTS, *STEROIDS, *METAL catalysts, *FORECASTING, *SUPRAMOLECULAR chemistry
Abstract

Predictability is a key requirement to encompass late‐stage C−H functionalization in synthetic routes. However, prediction (and control) of reaction selectivity is usually challenging, especially for complex substrate structures and elusive transformations such as remote C(sp³)−H oxidation, as it requires distinguishing a specific C−H bond from many others with similar reactivity. Developed here is a strategy for predictable, remote C−H oxidation that entails substrate binding to a supramolecular Mn or Fe catalyst followed by elucidation of the conformation of the host‐guest adduct by NMR analysis. These analyses indicate which remote C−H bonds are suitably oriented for the oxidation before carrying out the reaction, enabling prediction of site selectivity. This strategy was applied to late‐stage C(sp³)−H oxidation of amino‐steroids at C15 (or C16) positions, with a selectivity tunable by modification of catalyst chirality and metal. [ABSTRACT FROM AUTHOR]

Published
2020
Full Text
View/download PDF

32. Following a Chemical Reaction on the Millisecond Time Scale by Simultaneous X-ray and UV/Vis Spectroscopy

Author

Olivo, Giorgio, primary, Barbieri, Alessia, additional, Dantignana, Valeria, additional, Sessa, Francesco, additional, Migliorati, Valentina, additional, Monte, Manuel, additional, Pascarelli, Sakura, additional, Narayanan, Theyencheri, additional, Lanzalunga, Osvaldo, additional, Di Stefano, Stefano, additional, and D’Angelo, Paola, additional

Published
2017
Full Text
View/download PDF

34. Insight into the chemoselective aromatic vs.side-chain hydroxylation of alkylaromatics with H2O2catalyzed by a non-heme imine-based iron complexElectronic supplementary information (ESI) available: Instruments and general methods, selected GC chromatograms and 1HNMR spectra of some oxidation reactions. See DOI: 10.1039/d0cy01868f

Author

Ticconi, Barbara, Capocasa, Giorgio, Cerrato, Andrea, Di Stefano, Stefano, Lapi, Andrea, Marincioni, Beatrice, Olivo, Giorgio, and Lanzalunga, Osvaldo

Abstract

The oxidation of a series of alkylaromatic compounds with H2O2catalyzed by an imine-based non-heme iron complex prepared in situby reaction of 2-picolylaldehyde, 2-picolylamine, and Fe(OTf)2in a 2 : 2 : 1 ratio leads to a marked chemoselectivity for aromatic ring hydroxylation over side-chain oxidation. This selectivity is herein investigated in detail. Side-chain/ring oxygenated product ratio was found to increase upon decreasing the bond dissociation energy (BDE) of the benzylic C–H bond in line with expectation. Evidence for competitive reactions leading either to aromatic hydroxylation viaelectrophilic aromatic substitution or side-chain oxidation viabenzylic hydrogen atom abstraction, promoted by a metal-based oxidant, has been provided by kinetic isotope effect analysis.

Published
2021
Full Text
View/download PDF

41. Correction to “Oxidation of Aryl Diphenylmethyl Sulfides Promoted by a Nonheme Iron(IV)-Oxo Complex: Evidence for an Electron Transfer-Oxygen Transfer Mechanism”

Author

Barbieri, Alessia, primary, De Carlo Chimienti, Rosemilia, additional, Del Giacco, Tiziana, additional, Di Stefano, Stefano, additional, Lanzalunga, Osvaldo, additional, Lapi, Andrea, additional, Mazzonna, Marco, additional, Olivo, Giorgio, additional, and Salamone, Michela, additional

Published
2016
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results