npj Clean Water (Sep 2024)

High-strength TiO2/TPU composite fiber based textiles for organic pollutant removal

  • Lihui Xiao,
  • Jing Zhang,
  • Tianguang Lu,
  • Geng-heng Zhou,
  • Yi Ren,
  • Ziye Zheng,
  • Xian-zheng Yuan,
  • Shu-guang Wang,
  • Zuoli He

DOI
https://doi.org/10.1038/s41545-024-00390-x
Journal volume & issue
Vol. 7, no. 1
pp. 1 – 8

Abstract

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Abstract Effective integration of nanostructured photocatalysts into polymer matrices is crucial for the broad practical application of fiber-based photocatalytic composite textiles. Herein, highly durable TiO2/TPU composite fibers with high TiO2 content (>30 wt. %) were prepared through wet spinning using 1D electrospun TiO2 nanofibers (TNFs). Due to the fiber reinforcement principle, the TNF/TPU composite fibers exhibited superior mechanical properties compared with pure TPU fibers. Furthermore, the TNF/TPU composite fibers with a ratio of 1:2 process impressive degradation efficiency for rhodamine B (RhB). The orientation of 1D TNFs and stronger interface between TNF and TPU matrices not only enable the excellent load sharing and transfer effects following fiber pullout and crack bridging mechanisms, but also improve photogenerated charge transfer efficiency, resulting in high strength and high photocatalytic activity. In addition, enhanced TNF exposure on the fiber is due to the hollow and porous structures of composite fibers, which is advantageous for photocatalytic degradation. Notably, when the RhB concentration exceeded 15 ppm, the TNF/TPU composite fibers exhibited higher degradation efficiency than the TNF powder. Therefore, TNF/TPU composite fiber–based textiles with high photocatalytic activity and strength are promising for overcoming the separation and recovery issues of nanostructured catalysts in practical wastewater treatment applications.