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alkynylations

Alkynylations are chemical reactions that introduce an alkynyl group (–C≡C–R or –C≡CH) into a substrate, forming a new carbon–carbon bond with a sp-hybridized carbon. They provide a straightforward route to propargyl and other alkynyl-substituted products, which are valuable in further elaboration and functional materials.

Several general approaches are used:

- Nucleophilic alkynylation: alkynyl anions or organometallic reagents (such as acetylides) add to carbonyl compounds to give

- Electrophilic alkynylation: electrophilic alkynyl sources, including alkynyl halides or hypervalent iodine reagents, transfer the alkynyl moiety

- Radical alkynylation: alkynyl radicals generated from suitable precursors add to alkenes or arenes, enabling hydroalkynylation or

Transition-metal-catalyzed methods:

- The Sonogashira reaction is the most widely used alkynylation, coupling terminal alkynes with aryl or vinyl

- Additional metal-catalyzed alkynylations broaden the scope to coupling alkynyl partners with carbonyls, alkenes, or heteroatoms.

Applications and scope:

Alkynylations are employed in the synthesis of natural products, pharmaceuticals, and functional materials. They enable rapid

propargyl
alcohols
after
workup.
This
broad
class
also
includes
additions
to
electrophiles
under
catalytic
conditions
to
forge
C–C
bonds.
to
nucleophiles
or
electron-rich
substrates.
C–H
alkynylation
under
various
conditions.
halides
under
palladium
catalysis,
often
with
copper
co-catalyst,
yielding
aryl-
or
vinyl-alkynes.
construction
of
alkynyl
motifs
with
ongoing
efforts
to
improve
milder
conditions,
selectivity,
and
substrate
tolerance.