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sulfinylation

Sulfinylation is a chemical process in which a sulfinyl group (−S(=O)−) is introduced into a molecule. In common usage it refers to the formation of sulfoxides (R–S(=O)–R′), but the term can also describe reactions that append sulfinyl fragments to substrates. The sulfinyl group is the defining feature of sulfoxides, in which sulfur bears a partial double bond to oxygen and resides in the +4 oxidation state.

Two principal modes characterize sulfinylation. Oxidative sulfinylation converts sulfur-containing substrates, such as thioethers, into sulfoxides by

Scope and selectivity vary with the method. Oxidative sulfinylation is widely used to convert sulfides to sulfoxides,

Applications of sulfinylation products are broad. Sulfoxides are important in organic synthesis as intermediates, chiral auxiliaries,

oxidation
with
reagents
like
hydrogen
peroxide,
m-chloroperbenzoic
acid,
or
other
peracids,
often
under
catalytic
or
controlled
conditions
to
influence
stereochemistry.
Direct
sulfinylation
employs
sulfinylating
reagents
to
attach
a
−SO−
fragment
to
carbon
centers
or
heteroatoms,
enabling
formation
of
sulfinylated
products
that
may
be
further
transformed
into
sulfoxides
or
related
derivatives.
frequently
delivering
high
chemoselectivity
for
the
sulfur
center.
Direct
sulfinylation
can
target
arenes,
alkenes,
or
nucleophiles
and
may
involve
sulfur
dioxide
surrogates
or
specialized
sulfinylating
agents
to
install
the
sulfinyl
group
before
subsequent
oxidation
or
functionalization.
and
ligands
for
catalysis.
They
also
appear
in
pharmaceuticals,
agrochemicals,
and
materials,
and
in
flavors
and
fragrances.
Ongoing
developments
aim
to
improve
selectivity,
scope,
and
atom
economy
in
sulfinylation
protocols.