In this study, we present a novel and environmentally sustainable protocol for the gamma-hydrofunctionalization of N-allenyl compounds using various heteronucleophiles catalyzed solely by simple Bronsted acids. The method displays remarkable attributes, highlighting its sustainability, efficiency, regio- and stereoselectivity, as well as its versatile applicability to diverse heteroatom-containing enamides. Notably, our approach eliminates the need for metal catalysts and toxic solvents, representing a significant advancement in greener chemistry practices. We demonstrate the broad scope of our protocol by successfully scaling up reactions to gram-scale syntheses, underscoring its robustness for potential industrial implementation. The resulting gamma-heterosubstituted enamides offer new possibilities for further synthetic transformations, yielding highly functionalized compounds with diverse applications. Mechanistic investigations reveal the pivotal role of CSA as a catalyst, enabling alcohol addition via a covalent activation mode.

Quintavalla, A., Carboni, D., Brusa, A., Lombardo, M. (2024). Selective Hydrofunctionalization of N-Allenyl Derivatives with Heteronucleophiles Catalyzed by Brønsted Acids. JOURNAL OF ORGANIC CHEMISTRY, 89(4), 2320-2342 [10.1021/acs.joc.3c02322].

Selective Hydrofunctionalization of N-Allenyl Derivatives with Heteronucleophiles Catalyzed by Brønsted Acids

Quintavalla, Arianna
;
Carboni, Davide;Lombardo, Marco
2024

Abstract

In this study, we present a novel and environmentally sustainable protocol for the gamma-hydrofunctionalization of N-allenyl compounds using various heteronucleophiles catalyzed solely by simple Bronsted acids. The method displays remarkable attributes, highlighting its sustainability, efficiency, regio- and stereoselectivity, as well as its versatile applicability to diverse heteroatom-containing enamides. Notably, our approach eliminates the need for metal catalysts and toxic solvents, representing a significant advancement in greener chemistry practices. We demonstrate the broad scope of our protocol by successfully scaling up reactions to gram-scale syntheses, underscoring its robustness for potential industrial implementation. The resulting gamma-heterosubstituted enamides offer new possibilities for further synthetic transformations, yielding highly functionalized compounds with diverse applications. Mechanistic investigations reveal the pivotal role of CSA as a catalyst, enabling alcohol addition via a covalent activation mode.
2024
Quintavalla, A., Carboni, D., Brusa, A., Lombardo, M. (2024). Selective Hydrofunctionalization of N-Allenyl Derivatives with Heteronucleophiles Catalyzed by Brønsted Acids. JOURNAL OF ORGANIC CHEMISTRY, 89(4), 2320-2342 [10.1021/acs.joc.3c02322].
Quintavalla, Arianna; Carboni, Davide; Brusa, Alessandro; Lombardo, Marco
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11585/970799
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