Polyurethanes Based on Polylactic Acid for 3D Printing and Shape-Memory Applications

Polyurethanes Based on Polylactic Acid for 3D Printing and Shape-Memory Applications

Polylactic acid (PLA) has received increased attention in the development of shape-memory polymers and biomedical materials owing to its excellent physical properties and good biocompatibility and biodegradability. However, the inherent brittleness and high shape-recovery temperature of this materia...

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Bibliographic Details
Published in:Biomacromolecules Vol. 23; no. 10; pp. 4192 - 4202
Main Authors: He, Shaoyun, Hu, Shikai, Wu, Yaowen, Jin, Ruiheng, Niu, Zhihao, Wang, Runguo, Xue, Jiajia, Wu, Sizhu, Zhao, Xiuying, Zhang, Liqun
Format: Journal Article
Language:English
Published: United States American Chemical Society 10-10-2022
Subjects:
Humans
Polyesters
Polyurethanes
Printing, Three-Dimensional
Smart Materials
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Summary:Polylactic acid (PLA) has received increased attention in the development of shape-memory polymers and biomedical materials owing to its excellent physical properties and good biocompatibility and biodegradability. However, the inherent brittleness and high shape-recovery temperature of this material limit its application in the human body. Herein, we fabricated a PLA-based thermoplastic polyurethane (PLA-TPU) prepared from modified PLA-diol, dicyclohexylmethane-4,4′-diisocyanate, and 1,4-butanediol to solve the limitations of pure PLA. The glass transition temperature (T g) of the designed TPU can be tailored from 6 to 40.5 °C by adjusting the content of hard segments or molecular weight of soft segments. The shape of the designed TPU can be fixed at room temperature and recovered at temperatures above 37 °C. Moreover, the prepared PLA-TPUs exhibited recyclability, three-dimensional printing capability, non-cytotoxicity, blood compatibility, and biodegradability. The shape of PLA-TPU/nano-Fe3O4 composites can be recovered by exposure to near-infrared light. These results collectively indicate that PLA-TPUs and their composites may have potential applications as intelligent flexible medical scaffolds for surgical and medical implantation equipment.
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ISSN:1525-7797
1526-4602
DOI:10.1021/acs.biomac.2c00662