A redox potential
controlled intermolecular [2 + 2] cross-cycloaddition
has been developed in the presence of a thioxanthylium photoredox
catalyst. Electron-rich styrenes such as β-bromostyrene (E
p/2 = +1.61 V vs SCE) were selectively oxidized
by a thioxanthylium photoredox catalyst (E
1/2 (C*/C•–) = +1.76 V vs SCE) to styryl radical
cations and reacted with styrene (E
p/2 = +1.97 V vs SCE) to furnish polysubstituted cyclobutanes in high
yields. The present reaction can be successfully applied to intermolecular
[2 + 2] cross-cycloaddition of β-halogenostyrenes, which cannot
be effectively achieved by the hitherto reported representative organophotoredox
catalysts.
Moderately oxidizing thioxanthylium photoredox catalysts that operate under irradiation with green light have been developed. These catalysts exhibit relatively moderate excited-state reduction potentials [E 1/2 (C*/C •− ) = 1.75−1.94 V vs saturated calomel electrode (SCE)] and can efficiently promote radicalcation Diels−Alder reactions under irradiation with green light. Interestingly, β-halogenostyrenes (E p/2 = 1.57−1.61 V vs SCE) are well tolerated, affording synthetically useful halocyclohexenes.
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