Catalytic Asymmetric Construction of Axially and Centrally Chiral Heterobiaryls by Minisci Reaction

Abstract: Axially chiral biaryls and heterobiaryls constitute the most represented subclass of atropisomers with prevalence in natural products, bioactive compounds, privileged chiral ligand/ catalysts, and optically pure materials. Despite many ionic protocols for their construction, radical-based variants represent another highly desirable and intriguing strategy but are far less developed. Moreover, efficient synthesis of axially chiral heterobiaryl molecules, especially ones having multiple heteroatoms and other typ… Show more

“…In this respect, Lin and Liu have independently described copper-catalyzed enantioselective sulfonyl radical-initiated difunctionalization of alkenes to obtain a series of chiral sulfone derivatives 17 , 18 . This approach benefits further from the emergence of visible light photoredox catalysis, which has enabled generation of radicals under mild conditions via single-electron transfer from precursors 19 – 21 or through radical insertion of sulfur dioxide 22 – 36 . Using a photocatalytic system comprised of chiral bis-cyclometalated rhodium(III) complex, Meggers and Wu accomplished enantioselective conjugate addition of sulfonyl radicals to activated alkenes for the efficient synthesis of chiral sulfones 19 , 20 .…”

Accessing chiral sulfones bearing quaternary carbon stereocenters via photoinduced radical sulfur dioxide insertion and Truce–Smiles rearrangement

“…In this respect, Lin and Liu have independently described copper-catalyzed enantioselective sulfonyl radical-initiated difunctionalization of alkenes to obtain a series of chiral sulfone derivatives 17 , 18 . This approach benefits further from the emergence of visible light photoredox catalysis, which has enabled generation of radicals under mild conditions via single-electron transfer from precursors 19 – 21 or through radical insertion of sulfur dioxide 22 – 36 . Using a photocatalytic system comprised of chiral bis-cyclometalated rhodium(III) complex, Meggers and Wu accomplished enantioselective conjugate addition of sulfonyl radicals to activated alkenes for the efficient synthesis of chiral sulfones 19 , 20 .…”

Accessing chiral sulfones bearing quaternary carbon stereocenters via photoinduced radical sulfur dioxide insertion and Truce–Smiles rearrangement

“…The axially chiral styrene 3d was also tested as a ligand for the enantioselective addition of diethylzinc to naphthalene formaldehyde, giving product 8 in a 68% yield and with 23% ee (Scheme ). Next, the olefins 3d could also be easily converted into the corresponding triflate, and then the one-pot Pd­(OAc) 2 -catalyzed reaction between diphenyl phosphine oxide and the triflate at 120 °C furnished 5 in a 57% yield and 92% ee (Scheme B). In addition, NaH could also promote the reaction of 4e and Tf 2 O in DCM, affording the corresponding triflate 6 in an 87% yield and with 93% ee.…”

Enantioselective Friedel–Crafts Reaction of 2-Alkynyphenols with Aromatic Ethers by Chiral Brønsted Acid Catalysis

“…Over the decades, N–O activation has been efficiently achieved through visible-light-driven reductive SET of an electrophore, wherein the disparity between the electron densities at the N and O heteroatoms due to the presence of unique functional groups is exploited to selectively generate either (i) an O-centered radical (O • ) and N – from N electrophores or (ii) a N-centered radical (N • ) and O – from O electrophores (Figure a). N -Alkoxypyridinium salts, − N -(acyloxy)­phthalimides, and thiohydroxamic esters act as N electrophores, whereas O electrophores consist of oxime derivatives, − N -(acyloxy)­phthalimides, , N , O -disulfonyl- N -alkylhydroxylamines, , N -oxyamines, N -oxyamides, − N -oxycarbamates, − and dioxazolones . The weakening of the N–O bond after SET reduction eventually results thermodynamically favored defragmentation.…”

N–O Bond Activation by Energy Transfer Photocatalysis