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31 results on '"Capocasa, Giorgio"'

7. Signal Transduction Allows Temporal Control of the Potential of a Concentration Cell Driven by the Decarboxylation of an Activated Carboxylic Acid.

Author

Capocasa, Giorgio, Frateloreto, Federico, Correale Cavallari, Stefania, Valentini, Matteo, Lanzalunga, Osvaldo, and Di Stefano, Stefano

Subjects
*CARBOXYLIC acids, *CELLULAR signal transduction, *DECARBOXYLATION, *CHEMICAL systems, *CHEMICAL species
Abstract

The use of Activated Carboxylic Acids (ACAs) allows the time‐controlled operation of dissipative chemical systems based on the acid‐base reaction by providing both the stimulus that temporarily drives a physicochemical change and, subsequently, the counter‐stimulus with a single reagent addition. However, their application is inherently limited to acid‐sensitive systems. To overcome this limitation, we herein develop a straightforward device for the transduction of the acid‐base stimuli delivered by an ACA into a voltage signal that, in turn, is used to control voltage‐sensitive circuits that are not pH‐responsive by themselves. The signal transductor can be easily assembled from common laboratory equipment and employs aqueous solutions of readily available chemicals. Furthermore, the operator can simply and intuitively tune the amplitude of the voltage signal, as well as its duration and offset by varying the concentration of the chemical species involved in the transduction process. [ABSTRACT FROM AUTHOR]

Published
2024
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9. Following a Silent Metal Ion: A Combined X-ray Absorption and Nuclear Magnetic Resonance Spectroscopic Study of the Zn2+ Cation Dissipative Translocation between Two Different Ligands

Author

Frateloreto, Federico, primary, Tavani, Francesco, additional, Di Berto Mancini, Marika, additional, Del Giudice, Daniele, additional, Capocasa, Giorgio, additional, Kieffer, Isabelle, additional, Lanzalunga, Osvaldo, additional, Di Stefano, Stefano, additional, and D’Angelo, Paola, additional

Published
2022
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25. 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
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26. 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
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29. Deciphering the Role of Crown-ether Receptor Orientation in C-H Oxidation Catalyzed by Supramolecular Nonheme Fe IV (O) Complexes.

Author

Fagnano A, Capocasa G, Frateloreto F, Latini L, Mortera SL, Lanzalunga O, Di Stefano S, and Olivo G

Abstract

The outstanding efficiency and selectivity of enzymatic reactions, such as C-H oxidation by nonheme iron oxygenases, stems from a precise control of substrate positioning inside the active site. The resulting proximity between a specific moiety (a certain C-H bond) and the reactant (a Fe IV (O) active species) translates into higher rates and selectivity, that can be in part replicated also with artificial supramolecular catalysts. However, structural modification of the position and orientation of the binding site both in enzymes and in artificial catalysts often leads to significant variations in reactivity that can be difficult to rationalize due to the system's complexity. Herein, we quantitatively analyzed the impact of such a structural modification (namely receptor orientation) on the C-H oxidation reactivity (kinetics, Effective Molarity) and selectivity by comparing simple supramolecular Fe IV (O) models. Overall, we did not observe significant differences in reaction rates, but we noticed slight changes in the selectivity profile. These results indicate that, when a crown-ether is employed as a recognition site, the key ingredient for enhanced reactivity is the presence of the supramolecular receptor itself rather than its exact orientation, providing a guide for the rational design of supramolecular catalysts., (© 2024 Wiley-VCH GmbH.)

Published
2024
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30. Following a Silent Metal Ion: A Combined X-ray Absorption and Nuclear Magnetic Resonance Spectroscopic Study of the Zn 2+ Cation Dissipative Translocation between Two Different Ligands.

Author

Frateloreto F, Tavani F, Di Berto Mancini M, Del Giudice D, Capocasa G, Kieffer I, Lanzalunga O, Di Stefano S, and D'Angelo P

Subjects
Cations, Crystallography, X-Ray, Ligands, Magnetic Resonance Spectroscopy, Metals, X-Rays, Zinc chemistry, Coordination Complexes chemistry
Abstract

The dissipative translocation of the Zn 2+ ion between two prototypical coordination complexes has been investigated by combining X-ray absorption and 1 H NMR spectroscopy. An integrated experimental and theoretical approach, based on state-of-the-art Multivariate Curve Resolution and DFT based theoretical analyses, is presented as a means to understand the concentration time evolution of all relevant Zn and organic species in the investigated processes, and accurately characterize the solution structures of the key metal coordination complexes. Specifically, we investigate the dissipative translocation of the Zn 2+ cation from hexaaza-18-crown-6 to two terpyridine moieties and back again to hexaaza-18-crown-6 using 2-cyano-2-phenylpropanoic acid and its para -chloro derivative as fuels. Our interdisciplinary approach has been proven to be a valuable tool to shed light on reactive systems containing metal ions that are silent to other spectroscopic methods. These combined experimental approaches will enable future applications to chemical and biological systems in a predictive manner.

Published
2022
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31. Increasing the steric hindrance around the catalytic core of a self-assembled imine-based non-heme iron catalyst for C-H oxidation.

Author

Frateloreto F, Capocasa G, Olivo G, Abdel Hady K, Sappino C, Di Berto Mancini M, Levi Mortera S, Lanzalunga O, and Di Stefano S

Abstract

Sterically hindered imine-based non-heme complexes 4 and 5 rapidly self-assemble in acetonitrile at 25 °C, when the corresponding building blocks are added in solution in the proper ratios. Such complexes are investigated as catalysts for the H 2 O 2 oxidation of a series of substrates in order to ascertain the role and the importance of the ligand steric hindrance on the action of the catalytic core 1, previously shown to be an efficient catalyst for aliphatic and aromatic C-H bond oxidation. The study reveals a modest dependence of the output of the oxidation reactions on the presence of bulky substituents in the backbone of the catalyst, both in terms of activity and selectivity. This result supports a previously hypothesized catalytic mechanism, which is based on the hemi-lability of the metal complex. In the active form of the catalyst, one of the pyridine arms temporarily leaves the iron centre, freeing up a lot of room for the access of the substrate., Competing Interests: There are no conflicts to declare., (This journal is © The Royal Society of Chemistry.)

Published
2020
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