Tara L. Simmons scite author profile

Polymandelide, an aryl analogue of polylactide, was synthesized by the ring-opening polymerization of mandelide, the cyclic dimer of mandelic acid. The poor solubility of rac-mandelide limited the synthesis of polymandelide via solution polymerization, but polymerization of mandelide at 70 °C as a heterogeneous slurry in acetonitrile yielded first-order kinetic plots and polydispersities <1.2. High molecular weight polymer prepared by melt polymerizations at T > 150 °C exhibit properties that mimic those of polystyrene. Polymandelide is a glassy amorphous polymer with a T g of 100 °C, with rheological properties comparable to polystyrene, and thermal gravimetric analyses under nitrogen show that the polymer is stable to ∼300 °C. Racemization during polymerization precluded formation of a crystalline polymer. Degradation of polymandelide in pH 7.4 buffer at 55 °C is consistent with a bulk erosion model and, due to its high T g , proceeds at ∼1/100 the rate of polylactide under similar conditions.

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Poly(phenyllactide): Synthesis, Characterization, and Hydrolytic Degradation

Simmons

Baker

2001

Biomacromolecules

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Poly(phenyllactide) was synthesized via the ring-opening polymerization of phenyllactide, the dimer of phenyllactic acid. Phenyllactide was synthesized by two methods, the solution phase condensation of L-phenyllactic acid and by thermal cracking of low molecular weight phenyllactic acid oligomers. The poor solubility of the monomer limited solution polymerizations of phenyllactide to low yields and low molecular weights, but melt polymerization of phenyllactide with Sn(Oct)2/tert-butylbenzyl alcohol at 180 degrees C gave high molecular weight polymers in high yields. The resulting polymers were amorphous due to epimerization of approximately 10% of the stereocenters during polymerization. Poly(phenyllactide) has a glass transition temperature of 50 degrees C and degrades to monomer at 320 degrees C. Experiments run at 55 degrees C at pH 7.4 show that poly(phenyllactide) degrades at approximately 1/5 the rate of rac-polylactide.

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Tara L. Simmons

Synthesis of Polymandelide: A Degradable Polylactide Derivative with Polystyrene-like Properties

Poly(phenyllactide): Synthesis, Characterization, and Hydrolytic Degradation

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