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Development of catalytic zero-valent iron incorporated PAN catalytic film for efficient degradation of organic matters

Environmental Studies and Forestry

Development of catalytic zero-valent iron incorporated PAN catalytic film for efficient degradation of organic matters

Y. Yang, H. Lin, et al.

This groundbreaking study introduces a highly effective nanoscale zero-valent iron (NZVI) incorporated porous PAN fiber film, demonstrating over 95% conversion for organic matter degradation in just 4 minutes. With its excellent stability and reusability, the Fe-PAN film showcases tremendous potential for industrial applications. This research was conducted by Yi Yang, Haowen Lin, Yuxi Long, Ying Mei, and J. Paul Chen.

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Playback language: English
Abstract
This study presents the development of a nanoscale zero-valent iron (NZVI) incorporated porous PAN fiber (Fe-PAN) film for efficient organic matter degradation. The Fe-PAN film, fabricated via a one-step cryogenic auxiliary electrospinning method, exhibits high catalytic activity (>95% conversion in 4 min) and excellent stability and reusability due to the synergistic interaction between PAN and NZVI. Optimization using Box-Behnken design determined optimal conditions (pH 2.8, 56 °C, 4.2 mmol/L oxidant). Degradation follows second-order kinetics, driven by ·OH and O2 radicals. The Fe-PAN film shows promise for industrial applications.
Publisher
npj Clean Water
Published On
May 13, 2024
Authors
Yi Yang, Haowen Lin, Yuxi Long, Ying Mei, J. Paul Chen
Tags
nanoscale zero-valent iron
porous PAN fiber film
organic matter degradation
catalytic activity
Box-Behnken design
second-order kinetics
industrial applications

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