Design and Performance of Novel Self-Cleaning g-C3N4/PMMA/PUR Membranes

Design and Performance of Novel Self-Cleaning g-C3N4/PMMA/PUR Membranes

In the majority of photocatalytic applications, the photocatalyst is dispersed as a suspension of nanoparticles. The suspension provides a higher surface for the photocatalytic reaction in respect to immobilized photocatalysts. However, this implies that recovery of the particles by filtration or ce...

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Published in:Polymers Vol. 12; no. 4; p. 850
Main Authors: Svoboda, Ladislav, Licciardello, Nadia, Dvorský, Richard, Bednář, Jiří, Henych, Jiří, Cuniberti, Gianaurelio
Format: Journal Article
Language:English
Published: Basel MDPI AG 07-04-2020
MDPI
Subjects:
Activated carbon
Adsorption
Aqueous solutions
Carbon nitride
Catalytic activity
Chemical precipitation
Cleaning
Contact angle
Contaminants
Dyes
Efficiency
exfoliated carbon nitride
Hydrogen peroxide
Hydrophobic surfaces
immersion coating
Light
Membranes
Methylene blue
Nanofibers
Nanoparticles
Photocatalysis
Photocatalysts
Pollutants
polymers
Polymethyl methacrylate
polyurethane nanofibers
Polyurethane resins
Regeneration
self-cleaning surfaces
Thin films
Toxicity
Ultraviolet radiation
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Summary:In the majority of photocatalytic applications, the photocatalyst is dispersed as a suspension of nanoparticles. The suspension provides a higher surface for the photocatalytic reaction in respect to immobilized photocatalysts. However, this implies that recovery of the particles by filtration or centrifugation is needed to collect and regenerate the photocatalyst. This complicates the regeneration process and, at the same time, leads to material loss and potential toxicity. In this work, a new nanofibrous membrane, g-C3N4/PMMA/PUR, was prepared by the fixation of exfoliated g-C3N4 to polyurethane nanofibers using thin layers of poly(methyl methacrylate) (PMMA). The optimal amount of PMMA was determined by measuring the adsorption and photocatalytic properties of g-C3N4/PMMA/PUR membranes (with a different PMMA content) in an aqueous solution of methylene blue. It was found that the prepared membranes were able to effectively adsorb and decompose methylene blue. On top of that, the membranes evinced a self-cleaning behavior, showing no coloration on their surfaces after contact with methylene blue, unlike in the case of unmodified fabric. After further treatment with H2O2, no decrease in photocatalytic activity was observed, indicating that the prepared membrane can also be easily regenerated. This study promises possibilities for the production of photocatalytic membranes and fabrics for both chemical and biological contaminant control.
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Current address: International Iberian Nanotechnology Laboratory, Avenida Mestre José Veiga s/n, 4715-330 Braga, Portugal.
ISSN:2073-4360
2073-4360
DOI:10.3390/polym12040850