Enantioselective synthesis of atropisomeric indoles via iron catalysed oxidative cross-coupling

Abstract: Heterobiaryl compounds that exhibit axial chirality are of increasing value and interest across several fields, but direct oxidative methods for their enantioselective synthesis are elusive. Here we disclose that an iron catalyst in the presence of a chiral PyBOX ligand and an oxidant enables direct coupling between naphthols and indoles to yield atropisomeric heterobiaryl compounds with high levels of enantioselectivity. The reaction exhibits remarkable chemoselectivity and exclusively yields cross-coupled pr… Show more

“…Synthesis of axially chiral indolyl biaryl compounds has been previously realized by chiral Brønsted acid, 25 and transition metal catalysts. 26 However, given the unprecedented reversed polarity of indoles, it is highly intriguing whether the current heterobiarylation protocol can be rendered enantioselective. Toward this end, 1z having 4-Me and N -mesitylene carboxylate as a leaving group was prepared ( Scheme 3 ).…”

Ortho-selective C–H arylation of phenols with N-carboxyindoles under Brønsted acid- or Cu(i)-catalysis

“…Synthesis of axially chiral indolyl biaryl compounds has been previously realized by chiral Brønsted acid, 25 and transition metal catalysts. 26 However, given the unprecedented reversed polarity of indoles, it is highly intriguing whether the current heterobiarylation protocol can be rendered enantioselective. Toward this end, 1z having 4-Me and N -mesitylene carboxylate as a leaving group was prepared ( Scheme 3 ).…”

Ortho-selective C–H arylation of phenols with N-carboxyindoles under Brønsted acid- or Cu(i)-catalysis