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Taking advantage of lithium monohalocarbenoid intrinsic α-elimination in 2-MeTHF: controlled epoxide ring-opening <i>en route</i> to halohydrins

Laura Ielo, Margherita Miele, Veronica Pillari, Raffaele Senatore, Salvatore Mirabile, Rosaria Gitto, Wolfgang Hölzer, Andrés R. Alcántara, Vittorio Pace

2021Organic & Biomolecular Chemistry25 citationsDOI

Abstract

The intrinsic degradative α-elimination of Li carbenoids somehow complicates their use in synthesis as C1-synthons. Nevertheless, we herein report how boosting such an α-elimination is a straightforward strategy for accomplishing controlled ring-opening of epoxides to furnish the corresponding β-halohydrins. Crucial for the development of the method is the use of the eco-friendly solvent 2-MeTHF, which forces the degradation of the incipient monohalolithium, due to the very limited stabilizing effect of this solvent on the chemical integrity of the carbenoid. With this approach, high yields of the targeted compounds are consistently obtained under very high regiocontrol and, despite the basic nature of the reagents, no racemization of enantiopure materials is observed.

Topics & Concepts

EpoxideRing (chemistry)Lithium (medication)ChemistryElimination reactionStereochemistryCombinatorial chemistryMedicinal chemistryOrganic chemistryCatalysisMedicineInternal medicineAsymmetric Synthesis and CatalysisChemical Synthesis and AnalysisSynthetic Organic Chemistry Methods
Taking advantage of lithium monohalocarbenoid intrinsic α-elimination in 2-MeTHF: controlled epoxide ring-opening <i>en route</i> to halohydrins | Litcius