This
manuscript reports a visible-light-mediated organosulfide
catalysis that enables the decarboxylative coupling between simple
aliphatic alcohol and tertiary or secondary alkyl carboxylic acid-derived
redox active esters to produce a C(sp3)–O–C(sp3) fragment. Results of the coupling using other heteroatom
nucleophiles such as water, amides, and thiols are also described.
This
manuscript describes a visible-light-mediated organophotoredox
catalytic process for vicinal difunctionalization of alkenes using
heteroatom nucleophiles and aliphatic redox active esters. A wide
range of heteroatom nucleophiles including alcohols, water, carboxylic
acids, amides, and halogens can be used for this reaction. This radical
relay type reaction allows forging of C(sp3)–C(sp3) with a carbon-centered radical and C(sp3)–heteroatom
bonds with a benzyl cation on the vinylarenes with complete regioselectivity
in a single step.
An organophotoredox-catalyzed
decarboxylative cross-coupling between
azole nucleophiles and aliphatic carboxylic acid-derived redox-active
esters is demonstrated. This protocol efficiently installs various
tertiary or secondary alkyl fragments onto the nitrogen atom of azole
nucleophiles under mild and transition-metal-free conditions. The
pyridinium additive successfully inhibits the formation of elimination
byproducts from the carbocation intermediate. This reaction is applicable
to the synthesis of a protein-degrader-like molecule containing an
azole and a thalidomide.
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