Issues

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2020

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vol. 18 / 

Issue 4

 



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Ahmed Hashim, Zinah Sattar Hamad
«Synthesis of (Polymer–SnO\(_2\)) Nanocomposites: Structural and Optical Properties for Flexible Optoelectronics Applications»
0969–0981 (2020)

PACS numbers: 61.80.Ba, 78.20.Ci, 78.67.Sc, 81.07.Pr, 81.16.-c, 82.35.Np, 85.60.Bt

In this paper, fabrication of polyvinyl alcohol (PVA)/tin dioxide nanoparticles (SnO\(_2\) NPs) nanocomposites for UV-shielding is investigated. The structural and optical properties of (PVA–SnO\(_2\)) nanocomposites are studied. The results of optical properties for (PVA–SnO\(_2\)) nanocomposites show that the absorbance (A), absorption coefficient (α), extinction coefficient (K), refractive index (n), real (ε\(_1\)) and imaginary (ε\(_2\)) parts of dielectric constant, and optical conductivity (σ\(_{op}\)) of PVA increase, while transmittance (T) and energy band gap (Eg) decrease with an increase in SnO\(_2\) nanoparticles’ concentration. The results show that (PVA–SnO\(_2\)) nanocomposites can be used for flexible electronics applications.

Keywords: optical properties, tin dioxide, PVA, UV-shielding, nanocomposites

https://doi.org/10.15407/nnn.18.04.969
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