Relaxation Dynamics of Biomass-Derived Copolymers With Promising Gas-Barrier Properties

Alejandro Sanz; Amelia Linares; Mari Cruz García-Gutiérrez; Aurora Nogales; Sandra Paszkiewicz; Agata Zubkiewicz; Anna Szymczyk; Tiberio A Ezquerra

doi:10.3389/fchem.2022.921787

Relaxation Dynamics of Biomass-Derived Copolymers With Promising Gas-Barrier Properties

Front Chem. 2022 Jun 14:10:921787. doi: 10.3389/fchem.2022.921787. eCollection 2022.

Authors

Alejandro Sanz¹, Amelia Linares¹, Mari Cruz García-Gutiérrez¹, Aurora Nogales¹, Sandra Paszkiewicz², Agata Zubkiewicz², Anna Szymczyk², Tiberio A Ezquerra¹

Affiliations

¹ Instituto de Estructura de La Materia, IEM-CSIC, Madrid, Spain.
² Department of Mechanical Engineering and Mechatronics, West Pomeranian University of Technology, Szczecin, Poland.

Abstract

This article presents an experimental study on the relaxation dynamics of a series of random copolymers based on bio-friendly comonomers with interesting gas barrier properties. We analyze the relaxation response in the glassy and ultraviscous regime of poly (trimethylene furanoate/sebacate) random copolymers via dielectric spectroscopy. We report lower values of dynamic fragility [a dimensionless index introduced in 1985 (Angell, Relaxations in Complex Systems, 1985)] in comparison to popular polyesters widely used in industry, such as poly (ethylene terephthalate), suggesting that the amorphous phase of these furanoate-based polyesters adopt an efficient chain packing. This is consistent with their low permeability to gases. We also discuss on different equations (phenomenological and theory-based approaches) for fitting the temperature-evolution of the alpha relaxation time.

Keywords: dielectric spectroscopy; dynamics; glass transition; polyfuranoates; random copolymers.