Atroposelective brominations to access chiral biaryl scaffolds using high-valent Pd-catalysis

Abstract

Compounds featuring atropisomerism are ubiquitous in natural products, therapeutics, advanced materials, and asymmetric synthesis. However, stereoselective preparation of these compounds presents many synthetic challenges. This article introduces streamlined access to a versatile chiral biaryl template through C–H halogenation reactions employing high-valent Pd catalysis in combination with chiral transient directing groups. This methodology is highly scalable, insensitive to moisture and air, and proceeds, in select cases, with Pd-loadings as low as 1 mol%. Chiral mono-brominated, dibrominated, and bromochloro biaryls are prepared in high yield and excellent stereoselectivity. These serve as remarkable building blocks bearing orthogonal synthetic handles for a gamut of reactions. Empirical studies elucidated regioselective C–H activation to be predicated on the oxidation state of Pd and diverging site-halogenation to result from cooperative effects of Pd and oxidant.