静电纺丝
材料科学
热塑性聚氨酯
超细纤维
制作
乙二醇
聚酰胺
纳米纤维
复合材料
溶剂
化学工程
纳米技术
聚合物
弹性体
化学
有机化学
医学
替代医学
病理
工程类
作者
Zungui Shao,Junyu Chen,Lingjie Ke,Qingfeng Wang,Xiang Wang,Wenwang Li,Gaofeng Zheng
标识
DOI:10.1021/acsbiomaterials.1c01118
摘要
Self-pumping wound dressings with directional water transport ability have been widely studied for their function of directional extraction of excessive biofluid from wounds while keeping the wound in a moderately humid environment to realize rapid wound healing. However, the existing solutions have not paid close attention to the fabrication of a nonirritating hydrophobic layer facing the wounds, which may cause irritation to wounds and thereby further worsen inflammation. Herein, a flexible and elastic thermoplastic polyurethane (TPU) hydrophobic microfiber mesh (TPU-HMM) produced by melt electrospinning (MES) is reported. The TPU-HMM was compounded to a hydrophilic nanofiber membrane, which was fabricated by blending with polyamide 6 and poly(ethylene glycol) (PA6-PEG) to form a composite self-pumping dressing, for which the breakthrough pressure in a reverse direction was 12.8 times than that in a positive direction and the forward water transmission rate was increased by 700%. It shows good directional water transport ability and is expected to absorb excessive biofluid of the wounds. This solvent-free and easy-process TPU-HMM provides a new strategy for the development of functional self-pumping textiles, and the solvent-free fabrication method for fibers, which eliminates the potential toxicity brought by solvent residues, offers more possibilities for its applications in biomedicine.
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