Fast and Chemoselective Addition of Highly Polarized Lithium Phosphides Generated in Deep Eutectic Solvents to Aldehydes and Epoxides
Luciana Cicco, Alba Fombona‐Pascual, Alba Sánchez‐Condado, Gabino A. Carriedo, Filippo Maria Perna, Vito Capriati, Alejandro Presa Soto, Joaquín García‐Álvarez
Abstract
Abstract Highly polarized lithium phosphides (LiPR 2 ) were synthesized, for the first time, in deep eutectic solvents as sustainable reaction media, at room temperature and in the absence of protecting atmosphere, through direct deprotonation of both aliphatic and aromatic secondary phosphines (HPR 2 ) by n ‐BuLi. The subsequent addition of in‐situ generated LiPR 2 to aldehydes or epoxides proceeded quickly and chemoselectively, thereby allowing the straightforward access to the corresponding α‐ or β‐hydroxy phosphine oxides, respectively, under air and at room temperature (bench conditions), which are traditionally considered as textbook‐prohibited conditions in the field of polar organometallic chemistry of s‐block elements.