Abstract The catalytic membrane plays an increasingly important role in the environmental remedy. In the present study, a novel catalytic membrane was prepared by growing Ag NPs on the porous… Click to show full abstract
Abstract The catalytic membrane plays an increasingly important role in the environmental remedy. In the present study, a novel catalytic membrane was prepared by growing Ag NPs on the porous PVDF@TiO2 nanofiber (NF) based on the epitaxial growth principle. Using the implanted TiO2 NPs as inter-layer, Ag NPs can be tightly coated to the surface of the porous PVDF@TiO2 NF. The obtained NF membrane can withstand the ultrasonic washing treatment of 4 hrs. Afterward, the reduction of 4-nitrophenol (4-NP) through the filtration using Ag coated NF membrane was investigated. The flux of Ag coated NF membrane reaches 580 L m−2 h−1 bar−1, and the reduction degree is above 96%. The catalytic activity of the Ag coated PVDF NF membrane remains stable during 7 repeated operation recycles, with each one lasting for at least 2 h. Meanwhile, the calculated apparent reaction rate constant is much higher than that reported in the single reaction process. To explore the reason, a new mechanism based on the adsorption-reaction path is proposed to explain their synergistic effect.
               
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