A thermosensitive molecularly imprinted poly-NIPAM coated MWCNTs/TiO2 photocatalyst for the preferential removal of pendimethalin pesticide from wastewater

[Display omitted] •The smart molecularly imprinted technique was applied for the synthesis of a thermosensitive photocatalyst with the PNIPAM matrix.•The MWCNTs/TiO2/TMIP showed a high activity in the selective degradation of pendimethalin pesticide under visible light.•The swelling form of poly-NIP...

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Bibliographic Details
Published in:Journal of photochemistry and photobiology. A, Chemistry. Chemistry., 2020-11, Vol.402, p.112802, Article 112802
Main Authors: Shahnazi, Azita, Nabid, Mohammad Reza, Sedghi, Roya, Heidari, Bahareh
Format: Article
Language:English
Subjects:
Molecular imprinting
Pesticide
Photocatalyst
Thermosensitive polymer
TiO2
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Summary:[Display omitted] •The smart molecularly imprinted technique was applied for the synthesis of a thermosensitive photocatalyst with the PNIPAM matrix.•The MWCNTs/TiO2/TMIP showed a high activity in the selective degradation of pendimethalin pesticide under visible light.•The swelling form of poly-NIPAM at room temperature increased the binding ability of PM to the polymer layer.•The photocatalyst demonstrated a much higher adsorption capacity for PM compared to its analogue structures. In order to realize a selective photodegradation of a specific pesticide from water, a novel thermosensitive molecularly imprinted poly N-isopropylacrylamide (NIPAM) coated MWCNTs/TiO2 nanocomposite (MWCNTs/TiO2/TMIP) was synthesized. Pendimethalin (PM) herbicide was chosen as the target contaminant molecule. The structures and properties of the nanocomposites were characterized by FE-SEM, EDX, TEM, XRD, XPS, FT-IR, and UV–vis DRS techniques. MWCNTs/TiO2/TMIP exhibited a superior target specific recognition ability with the high adsorption capacity. The swelling form of poly-NIPAM at room temperature increased the binding ability of PM to the polymer layer. The excellent selectivities of the adsorption and photodegradation processes of MWCNTs/TiO2/TMIP were verified by comparing them with those of MWCNTs/TiO2/TNIP (a non-imprinted polymer) and also using two structural analogues of PM. The TMIP photocatalyst revealed a high activity in the degradation of PM with a rate constant of 0.0438 min −1 under visible light compared with other corresponding photocatalysts. This was due to the combination of the smart molecularly imprinted technique and the photocatalytic process. In addition, a plausible mechanism for PM photodegradation was proposed based on charge carrier scavenger experiments, indicating that the main active species of this photocatalytic process are the O2− radicals.
ISSN:1010-6030
1873-2666
DOI:10.1016/j.jphotochem.2020.112802