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Modification of thermoplastic polyurethane nanofiber membranes by in situ polydopamine coating for tissue engineering

Jixin Lin, Weiwen Wang, Jiaqi Cheng, Zhixiang Cui, Junhui Si, Qianting Wang, Wenzhe Chen

2020Journal of Applied Polymer Science31 citationsDOI

Abstract

Abstract To improve the interaction between cells and scaffolds, the appropriate surface chemical property is very important for tissue engineering scaffolds. In this work, the dopamine (DA) was first introduced into thermoplastic polyurethane (TPU) matrix to obtain TPU/DA nanofibers by electrospinning. Subsequently, the TPU@polydopamine (PDA) composite nanofibers with core/shell structure were fabricated by in situ polymerization of PDA. In comparison with TPU nanofibers, the uniformization of PDA coating layer on the surface of TPU/DA composite nanofibers significantly increased due to the addition of DA, which used as the active sites to guide the PDA particles accumulated along with the fiber direction. The hydrophilicity and water uptake ability of TPU@PDA composite nanofibers were larger than those of TPU nanofibers. The TPU@PDA composite nanofibers possess excellent comprehensive mechanical properties of high strength, stiffness, elasticity, and recoverability because of the hydrogen bonding occurrence between PDA and DA, as well as between PDA and TPU matrix. The attachment and viability of mouse embryonic osteoblasts cells (MC3T3‐E1) cultured on TPU@PDA composite nanofibers were obviously enhanced compared with TPU nanofibers. Those results suggested that the modified TPU@PDA composite nanofibers have superior mechanical and biological properties, which promoting them potentially useful for tissue engineering scaffolds.

Topics & Concepts

Thermoplastic polyurethaneMaterials scienceNanofiberComposite materialComposite numberElectrospinningCoatingPolyurethaneSurface modificationIn situ polymerizationPolymerChemical engineeringElastomerPolymerizationEngineeringElectrospun Nanofibers in Biomedical ApplicationsPolymer Surface Interaction StudiesDendrimers and Hyperbranched Polymers
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