posted on 2024-03-22, 10:33authored byMarta Ximenis, Julien Monot, Elena Gabirondo, Janna Jeschke, Blanca Martín-Vaca, Didier Bourissou, Haritz Sardon
The development of new sustainable polymeric materials
endowed
with improved performances but minimal environmental impact is a major
concern, with polyesters as primary targets. Lactones are key monomers
thanks to ring-opening polymerization, but their use in step-growth
polymerization has remained scarce and challenging. Herein, we report
a powerful bis(γ-lactone) (γSL) that was
efficiently prepared on a gram scale from malonic acid by Pd-catalyzed
cycloisomerization. The γ-exomethylene moieties and the spiro
structure greatly enhance its reactivity toward ring-opening and enable
step-growth polymerization under mild conditions. Using diols, dithiols,
or diamines as comonomers, a variety of regioregular (AB)n copolymers with diverse linkages and functional
groups (from oxo-ester to β-thioether lactone and β-hydroxy-lactame)
have been readily prepared. Reaction modeling and monitoring revealed
the occurrence of an original trans-lactonization
process following the first ring-opening of γSL. This peculiar reactivity opens the way to regioregular (ABAC)n terpolymers, as illustrated by the successive
step-growth polymerization of γSL with a diol and
a diamine.