Small molecules containing
cyclopropane–heteroatom linkages
are commonly needed in medicinal chemistry campaigns yet are problematic
to prepare using existing methods. To address this issue, a scalable
Chan–Lam cyclopropylation reaction using potassium cyclopropyl
trifluoroborate has been developed. With phenol nucleophiles, the
reaction effects <i>O</i>-cyclopropylation, whereas with
2-pyridones, 2-hydroxybenzimidazoles, and 2-aminopyridines the reaction
brings about <i>N</i>-cyclopropylation. The transformation
is catalyzed by Cu(OAc)<sub>2</sub> and 1,10-phenanthroline and employs
1 atm of O<sub>2</sub> as the terminal oxidant. This method is operationally
convenient to perform and provides a simple, strategic disconnection
toward the synthesis of cyclopropyl aryl ethers and cyclopropyl amine
derivatives bearing an array of functional groups
