Abstract
Photoredox
ring-opening polymerization of O-carboxyanhydrides
allows for the synthesis of polyesters with precisely controlled molecular
weights, molecular weight distributions, and tacticities. While powerful,
obviating the use of precious metal-based photocatalysts would be attractive
from the perspective of simplifying the protocol and enabling unexpected
reactivity. Herein, we report the Co and Zn catalysts that are activated by
external light to mediate efficient ring-opening polymerization of O-carboxyanhydrides, without the use of
exogenous precious metal-based photocatalysts. Our methods allow for the synthesis
of isotactic polyesters with high molecular weights (>200 kDa) and narrow
molecular weight distributions (Mw/Mn < 1.1). Mechanistic
studies indicate that light activates the oxidative status of CoIII
intermediate that is generated from the regioselective ring-opening of the O-carboxyanhydride. We also demonstrate
that the use of Zn or Hf complexes together with Co can allow for stereoselective
photoredox ring-opening polymerizations of multiple racemic O-carboxyanhydrides to synthesize
syndiotactic and stereoblock copolymers, which vary widely in their glass
transition temperatures.
Supplementary materials
Title
SI-Co-OCA-light-version2-0118
Description
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