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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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Abstract
Catalytic films work well in degradation of organic matters. However, catalytic activity and stability of films are challenging factors. A nanoscale zero-valent iron (NZVI) incorporated porous PAN fiber (Fe-PAN) film was thus developed through a one-step cryogenic auxiliary electrospinning method. The Fe-PAN film overcame the problem in the traditional multistep preparation process. The excellent intrinsic properties of the polymer in the film were maintained. It exhibited high catalytic activity (> 95% conversion in just 4 min) and excellent stability and reusability, due to the synergistic interaction between PAN and NZVI. The degradation process was optimized by the Box-Behnken design, leading to the optimal condition: pH = 2.8, temperature = 56 °C, and oxidant concentration = 4.2 mmol/L. The degradation followed the 2nd order kinetic equation and was due to the reactions by ·OH and O2 radicals. This study demonstrates the great potentials of the Fe-PAN film 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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