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Biosourced Amphiphilic Degradable Elastomers of Poly(glycerol sebacate): Synthesis and Network and Oligomer Characterization
Glycerol (G, a triol) and sebacic acid (S, an α,ω-dicarboxylic
acid) were condensed in the bulk to obtain polyÂ(glycerol sebacate)
(PGS) cross-linked elastomers which were characterized in terms of
their swelling, thermal, and mechanical properties. The soluble precursors
to the elastomers were characterized in terms of their size, size
distribution, and composition. In particular, G–S mixtures
of five different compositions (molar G:S ratio = 2:1, 2:2, 2:3, 2:4,
and 2:5) were copolymerized in the bulk at 120 °C in a three-step
strategy (first step under inert gas atmosphere, followed by two steps <i>in vacuo</i>). When the G:S molar ratio was equal to (2:3) or
close to (2:4), the stoichiometrically matched, network formation
took place from the second condensation step, whereas three reaction
steps were necessary for network formation far from stoichiometry,
at G:S molar ratios equal to 2:2 and 2:5; at a G:S molar ratio of
2:1, no network formation was observed at all. Network composition
also proved to be an important structural property, directly influencing
the swelling and thermomechanical behavior of the elastomers. In particular,
at the stoichiometrically matched G:S ratio of 2:3, corresponding
to the cross-linking density maximum, the sol fraction extracted from
the elastomers and the elastomer degree of swelling in aqueous media
and in organic solvents presented a minimum, whereas the storage moduli
of PGS elastomeric membranes in the dry state, measured within the
temperature range between 35 and 140 °C, exhibited a maximum.
The molecular weights of all soluble network precursors were found
to be below 5000 g mol<sup>–1</sup> (gel permeation chromatography),
containing but traces of ring oligomers (electron-spray ionization
mass spectrometry). <sup>1</sup>H NMR spectroscopy indicated that
the precursor composition was close to that expected on the basis
of the G:S feed ratio and that monomer-to-polymer conversion increased
from the first to the second condensation step