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 remain 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… Show more

“…In fact, in recent years, the catalytic asymmetric construction of axially chiral indole-based scaffolds has become an emerging area of study [8,78] due to the importance of such scaffolds in many natural products [90][91][92] , bioactive molecules [93,94] and chiral catalysts or ligands [95][96][97][98][99][100][101] . Although a number of axially chiral indole-based scaffolds, such as N-arylindoles [102][103][104][105][106][107][108][109][110] , 3-arylindoles [111][112][113][114][115][116][117][118][119][120] , 2-arylindoles [121][122][123][124][125][126][127] , 3quinonylindoles [128,129] , isochromenone-indoles [130] , bisindoles [131][132][133][134]…”

Organocatalytic Nazarov-type cyclization of 3-alkynyl-2-indolylmethanols: construction of axially chiral cyclopenta[b]indole scaffolds

“…In fact, in recent years, the catalytic asymmetric construction of axially chiral indole-based scaffolds has become an emerging area of study [8,78] due to the importance of such scaffolds in many natural products [90][91][92] , bioactive molecules [93,94] and chiral catalysts or ligands [95][96][97][98][99][100][101] . Although a number of axially chiral indole-based scaffolds, such as N-arylindoles [102][103][104][105][106][107][108][109][110] , 3-arylindoles [111][112][113][114][115][116][117][118][119][120] , 2-arylindoles [121][122][123][124][125][126][127] , 3quinonylindoles [128,129] , isochromenone-indoles [130] , bisindoles [131][132][133][134]…”

Organocatalytic Nazarov-type cyclization of 3-alkynyl-2-indolylmethanols: construction of axially chiral cyclopenta[b]indole scaffolds

“…14 In 2023, the Smith group reported an iron-catalysed method for synthesizing atropisomeric heterobiaryl compounds via the direct coupling of indoles and naphthol with high enantioselectivity. 15 As displayed in Scheme 10, atropisomeric heterobiaryl compounds could be obtained in DCE/HFIP (1 : 1) under mild conditions using inexpensive FeCl 3…”

“…14 In 2023, the Smith group reported an iron-catalysed method for synthesizing atropisomeric heterobiaryl compounds via the direct coupling of indoles and naphthol with high enantioselectivity. 15 As displayed in Scheme 10, atropisomeric heterobiaryl compounds could be obtained in DCE/HFIP (1 : 1) under mild conditions using inexpensive FeCl 3 ˙6H 2 O as the catalyst, chiral PyBOX as the ligand, and t -butylhydroperoxide (TBHP) as the oxidant. Notably, the reaction exhibits remarkable chemoselectivity and excellent yields for cross-coupling products without competing homo-coupling.…”

Recent advances in iron-catalysed coupling reactions for the construction of the C(sp²)–C(sp²) bond

“…The reaction occurs through interception of a chiral Fe-bound naphthoxy radical by indole nucleophile. [12] On the other hand, organocatalysis could enable distinctive reaction modes to couple two nucleophilic arene components. In 2017, Shi, Li and co-workers demonstrated the use of CPA to activate 2-indolylmethanols 1 for atroposelective arylation with aromatic alcohols to form 3-aryl-indoles 3 that contain a CÀ C chiral axis (Scheme 1a).…”

Chiral Phosphoric Acid‐Catalyzed Enantioselective Synthesis of Axially Chiral Compounds Involving Indole Derivatives