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Collagen Fibril-Assembled Skin-Simulated Membrane for Continuous Molecular Separation.

Jian LiPei XiaoYilin XuLiangliang DongZhenyu WangFei LiuJiang-Nan ShenBart Van der Bruggen
Published in: ACS applied materials & interfaces (2022)
A skin-simulated thin-film-composite membrane was fabricated using a vacuum-assisted interfacial polymerization method. A negatively charged surface-selective layer on a polyacrylonitrile (PAN) substrate was cross-linked using trimesoyl chloride to form polyamide and polyester with a three-layer structure that was similar to skin. The loading of collagen fibrils assembled on the membrane surface was varied, and a selective layer was obtained, of which the thickness, morphology, and hydrophilicity can be manipulated. The optimal membrane decorated with 0.5 mg of collagen fibril had a selective layer thickness of around 130 nm with pure water permeability up to 84.7 LMH bar -1 . Furthermore, the membrane exhibited impressive rejections toward dyes (Congo red with a molecular weight of 696.68 Da: 99.6%, reactive blue 19 with a molecular weight of 626.54 Da: 99.8%, and Coomassie blueG-250 with a molecular weight of 854.02 Da: 98.6%) while high permeations of Na 2 SO 4 and NaCl were achieved. This facile strategy provides a useful guideline for constructing bionic membranes through biomaterials.
Keyphrases
  • wound healing
  • tissue engineering
  • optical coherence tomography
  • photodynamic therapy
  • mass spectrometry
  • ionic liquid
  • single molecule