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Porous Electroactive and Biodegradable Polyurethane Membrane through Self‐Doping Organogel

Wei Fang, Fu‐Hua Sun, Jiajing Tang, Qing Zhao, Jie Chen, Xiaoyu Lei, Jinzheng Zhang, Yinglong Zhang, Yi Zuo, Jidong Li, Yubao Li

2021Macromolecular Rapid Communications18 citationsDOI

Abstract

In order to improve the processability of conductive polyurethane (CPU) containing aniline oligomers, a new CPU containing aniline trimer (AT) and l-lysine (PUAT) are designed and synthesized. Further, the 3D porous PUAT membranes have been prepared by a simple gel cooperated with freeze-drying method. Chemical testings and conductive properties testify a self- doping model of PUAT based on the rich electronic l-lysine and electroaffinity AT moities. The self-doping behavior further endows the PUAT copolymers specific characteristics such as high electrical conductivity and the formation of the polaron lattice like-structure in good solvent dimethyl sulfoxide. The combination of organogel and freeze-drying could prevent the collapse of pore structure when the copolymers are molded as membranes. The synergistic effect of l-lysine and AT components has a strong influence on the dissolution, degradation, thermal stability, and mechanical properties of PUAT. The excellent properties of PUAT would broad the application of conductive polymers in biomedicine field.

Topics & Concepts

Materials scienceMembraneChemical engineeringCopolymerPolyurethanePolyanilineAnilineThermal stabilityPolymerPolymer chemistryDopingConductive polymerElectrospinningPorosityComposite materialOrganic chemistryChemistryPolymerizationBiochemistryEngineeringOptoelectronicsConducting polymers and applicationsPolymer composites and self-healingPolydiacetylene-based materials and applications
Porous Electroactive and Biodegradable Polyurethane Membrane through Self‐Doping Organogel | Litcius