α-Phenylcinnamic acid converts into polycyclic derivatives by interaction with high valent transition metal halides in chloroform at reflux temperature. Different products, featured by local structural differences depending on the nature of the metal halide system (i. e. WCl6, PCl5/NbF5or PCl5/NbCl5), are easily isolable after treatment with water. In particular, WCl6configures as an efficient multitasking agent, working as 1) chlorinator of the carboxylic acid function, 2) catalytic precursor for intra- and intermolecular rearrangements, and 3) catalytic precursor for Baeyer-Villiger lactonization in water at ambient temperature, exploiting air as oxidant. The products have been purified by alumina chromatography, and identified by analytical and spectroscopic (IR, NMR) techniques, and by single crystal X-ray diffraction in three cases. Their formation probably involves a common reaction pathway which has been rationalized by DFT calculations.
Cascade Reactions of α-Phenylcinnamic Acid to Polycyclic Compounds Promoted by High Valent Transition Metal Halides / Bartalucci, Niccolò; Biancalana, Lorenzo; Bortoluzzi, Marco; Pampaloni, Guido; Giordano, Luca; Zacchini, Stefano; Marchetti, Fabio. - In: CHEMISTRYSELECT. - ISSN 2365-6549. - STAMPA. - 3:31(2018), pp. 8844-8848. [10.1002/slct.201801865]
Cascade Reactions of α-Phenylcinnamic Acid to Polycyclic Compounds Promoted by High Valent Transition Metal Halides
Zacchini, Stefano;
2018
Abstract
α-Phenylcinnamic acid converts into polycyclic derivatives by interaction with high valent transition metal halides in chloroform at reflux temperature. Different products, featured by local structural differences depending on the nature of the metal halide system (i. e. WCl6, PCl5/NbF5or PCl5/NbCl5), are easily isolable after treatment with water. In particular, WCl6configures as an efficient multitasking agent, working as 1) chlorinator of the carboxylic acid function, 2) catalytic precursor for intra- and intermolecular rearrangements, and 3) catalytic precursor for Baeyer-Villiger lactonization in water at ambient temperature, exploiting air as oxidant. The products have been purified by alumina chromatography, and identified by analytical and spectroscopic (IR, NMR) techniques, and by single crystal X-ray diffraction in three cases. Their formation probably involves a common reaction pathway which has been rationalized by DFT calculations.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.