Selective Thiolative
Lactonization of Internal Alkynes Bearing a Hydroxyl Group
with Carbon Monoxide and Organic Disulfides Catalyzed by Transition-Metal
Complexes
Although many transition-metal catalysts
are ineffective for the
addition and carbonylative addition of organic disulfides to internal
alkynes, dicobalt octacarbonyl and palladium complexes such as Pd(PPh3)4 and Pd(OAc)2 were found to exhibit
excellent catalytic activity for the thiolative lactonization of internal
alkynes bearing a hydroxyl group. In the presence of the cobalt or
palladium catalyst, internal alkynes bearing a hydroxy group, such
as homopropargyl alcohol derivatives, successfully undergo thiolative
carbonylation with carbon monoxide and an organic disulfide regio-
and stereoselectively to afford the corresponding thio group bearing-lactones
in good yields. In the Co-catalyzed reaction, the cobalt–alkyne
complex from dicobalt octacarbonyl and internal alkyne acts as a key
species, making it possible to attain thiolative lactonization of
internal alkynes with a hydroxyl group. In the Pd-catalyzed reaction,
the coordination of the hydroxy group to the palladium catalyst plays
an important role for the thiolative lactonization.