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The Effect of MGO Nanoparticles on Structure and Optical Properties of PVA-PAAm Blend


Affiliations
1 Department of Physics, College of Education for Pure Sciences, University of Babylon, Iraq
2 Department of Non-Metallic, College of Materials Engineering, University of Babylon, Iraq
3 Department of Physics, Education Faculty, University of Baghdad, Iraq
     

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The films of PVA-PAAm-MgO were prepared with various content (0, 0.02, 0.04) of 30 nm particle size MgO by casting solution method. The structure of PVA-PAAm-MgO composite was examined via FT-IR to determine the activation groups, while the diffusion of MgO nanoparticle inside the prepare blend and the homogeneity were examined using the optical microscope. UV-Visible spectrophotometer that used to recording the transmittance spectra in the range of 300-900 nm. The transmittance decreased with the increasing of MgO nanoparticles content in the PVA-PAAm-MgO composite, while the absorbance increased. The optical constants are determined and the optical energy gap decreased with the increasing of MgO nanoparticle content in the PVA-PAAm-MgO composite.

Keywords

Nanocomposites, Agglomeration, Sonication.
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  • The Effect of MGO Nanoparticles on Structure and Optical Properties of PVA-PAAm Blend

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Authors

Sura M. Al Asadi
Department of Physics, College of Education for Pure Sciences, University of Babylon, Iraq
Farah J. Hamood
Department of Physics, College of Education for Pure Sciences, University of Babylon, Iraq
Khalid Haneen Abass
Department of Physics, College of Education for Pure Sciences, University of Babylon, Iraq
Sara K. Mohammed
Department of Non-Metallic, College of Materials Engineering, University of Babylon, Iraq
Ishraq M. Hassan
Department of Physics, College of Education for Pure Sciences, University of Babylon, Iraq
Duha M. A. Latif
Department of Physics, Education Faculty, University of Baghdad, Iraq

Abstract


The films of PVA-PAAm-MgO were prepared with various content (0, 0.02, 0.04) of 30 nm particle size MgO by casting solution method. The structure of PVA-PAAm-MgO composite was examined via FT-IR to determine the activation groups, while the diffusion of MgO nanoparticle inside the prepare blend and the homogeneity were examined using the optical microscope. UV-Visible spectrophotometer that used to recording the transmittance spectra in the range of 300-900 nm. The transmittance decreased with the increasing of MgO nanoparticles content in the PVA-PAAm-MgO composite, while the absorbance increased. The optical constants are determined and the optical energy gap decreased with the increasing of MgO nanoparticle content in the PVA-PAAm-MgO composite.

Keywords


Nanocomposites, Agglomeration, Sonication.

References