2 research outputs found
Highly Diastereoselective α‑Arylation of Cyclic Nitriles
A highly
diastereoselective α-arylation of cyclic nitriles
has been developed via a Negishi cross-coupling of commercially available
aryl, heteroaryl, and alkenyl halides with cyclobutyl nitriles in
the presence of tetramethylpiperidinylzinc chloride lithium chloride
(TMPZnCl•LiCl) and catalytic XPhos-Pd-G2. A variety of electronically
diverse electrophiles were well tolerated, and this chemistry was
further advanced with application of both cyclopropyl and cyclopentyl
nitriles
Magnesium Ethoxide Promoted Conversion of Nitriles to Amidines and Its Application in 5,6-Dihydroimidazobenzoxazepine Synthesis
Magnesium
ethoxide has been shown to be a mild, safe, and scalable
alternative to trimethylaluminum for the direct addition of amines
to aryl nitriles to access cyclic amidines. A variety of electronically
diverse oxa-, thia-, and diazepine products were successfully synthesized
in moderate to high yields. Further elaboration of these compounds
to 5,6-dihydroimidazobenzoxazepines, a privileged class of pharmacologically
active heterocycles, highlights the utility of this method