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04-06-2021 | Original Paper

Augmented structural and optical characteristics of SnO₂/MnO₂-doped PEO/PVP blend for photodegradation against organic pollutants

Authors: Huda Abdul Jalil Hussien, Raheem G. Kadhim, Ahmed Hashim

Published in: Polymer Bulletin | Issue 7/2022

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Abstract

This paper aims to fabricate of (PEO-PVP) blend doped with SnO₂/MnO₂ NPs for photodegradation of organic pollutants with low cost, high activity high propagation and anti-aggregation of nanoparticles compare with other materials.The polymer blend was prepared with ratio: 80 wt.% PEO and 20 wt.% PVP. The structural and optical properties of (PEO-PVP-SnO₂-MnO₂) nanocomposites have been studied in wavelength range (220–820) nm. The photodegradation behavior for (PEO-PVP-SnO₂-MnO₂) nanocomposites against organic pollutants has been investigated. The results indicated that the absorbance of (PEO–PVP) blend increases about 51% with adding of 4.5 MnO₂NPs. The energy gap decreased for allowed and forbidden transitions about 55% and 91%, respectively, by adding of 4.5 MnO₂NPs, this behavior is useful for optoelectronics, photocatalysis, the solar cells and diodes fields with low cost and light weight. Finally, the photodegradation activity of (PEO-PVP) blend and (PEO-PVP-SnO₂) were increased with increasing of the MnO₂ NPs ratios. The (PEO–PVP–SnO₂–MnO₂) NCs with 4.5 wt% of MnO₂ NPs have photodegradation ratio 59%.

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Title: Augmented structural and optical characteristics of SnO2/MnO2-doped PEO/PVP blend for photodegradation against organic pollutants
Authors: Huda Abdul Jalil Hussien
Raheem G. Kadhim
Ahmed Hashim
Publication date: 04-06-2021
Publisher: Springer Berlin Heidelberg
Published in: Polymer Bulletin / Issue 7/2022
Print ISSN: 0170-0839
Electronic ISSN: 1436-2449
DOI: https://doi.org/10.1007/s00289-021-03778-8

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