Dynamic mechanical and optical characterization of PVC/fGO polymer nanocomposites

This research demonstrates the effect of functionalized graphene oxide (fGO) by γ-aminopropyltriethoxysilane (APTES) on the structural, dynamic mechanical, and optical properties of polyvinyl chloride (PVC) polymer films. XRD analysis is applied to the prepared samples and the formation of GO is con...

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Published in:	Applied physics. A, Materials science & processing Vol. 124; no. 9; pp. 1 - 12
Main Authors:	Taha, T. A., Saleh, Ahmed
Format:	Journal Article
Language:	English
Published:	Berlin/Heidelberg Springer Berlin Heidelberg 01-09-2018 Springer Nature B.V
Subjects:	Aminopropyltriethoxysilane Applied physics Bonding strength Characterization and Evaluation of Materials Condensed Matter Physics Dielectric strength Energy gap Fourier transforms Hydrogen bonding Hydrogen storage Machines Manufacturing Materials science Mechanical properties Nanocomposites Nanotechnology Optical and Electronic Materials Optical properties Physics Physics and Astronomy Polymer films Polymer matrix composites Polymers Polyvinyl chloride Processes Raman spectra Refractivity Storage modulus Surfaces and Interfaces Thin Films Wavelengths
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Abstract	This research demonstrates the effect of functionalized graphene oxide (fGO) by γ-aminopropyltriethoxysilane (APTES) on the structural, dynamic mechanical, and optical properties of polyvinyl chloride (PVC) polymer films. XRD analysis is applied to the prepared samples and the formation of GO is confirmed. Raman scattering measurements for GO and fGO samples confirmed the existence of the D band and G band at 1337 and 1598 cm −1 . In addition, the I D / I G ratio increased for the PVC/fGO nanocomposite films, indicating that the relative fraction of sp 2 -hybridized carbon atom was lowered, and the distorted structure of PVC/fGO nanocomposites. Dispersion of fGO in the PVC/fGO composites was also observed using SEM. DMA measurements revealed that the nanocomposite samples exhibit higher storage moduli than pure PVC as the storage modulus for pure PVC at 20 °C is 173 MPa, whereas it is 176, 334, 498, and 920 MPa for 0.1, 0.3, 0.5, and 1.0 wt% fGO loading, respectively. The glass transition of the nanocomposite films from tan ( δ ) peaks is for PVC 72.69 °C, whereas it is 74.45, 77.53, 81.59, and 89.59 °C for 0.1, 0.3, 0.5, and 1.0 wt% fGO loading, respectively. FTIR spectroscopy was used to identify interaction in PVC/fGO polymer composites, which the peak around 863 cm −1 of pure film shifts to a lower wavenumber ~ 833 cm −1 with the incorporation of fGO, indicating the existence of strong and intramolecular hydrogen bonding between free C–Cl of PVC and amino groups of fGO. The direct optical energy gap ( E opt ) decreased from 5.21 to 5.04 eV and Urbach energy ( E U ) increased with increasing fGO content. The average excitation energy for electronic transitions ( E o ), the dispersion energy ( E d ), refractive index, dipole strength ( f ), optical conductivity, and both static and high-frequency dielectric constants are enhanced with increasing fGO content. Finally, the ratio of free carriers to effective mass (N/m*) increased from 3.68 × 10 56 to 12.28 × 10 56 m −3 kg −1 and plasma frequency ( ω ) increased with increasing fGO wt%.
AbstractList	This research demonstrates the effect of functionalized graphene oxide (fGO) by γ-aminopropyltriethoxysilane (APTES) on the structural, dynamic mechanical, and optical properties of polyvinyl chloride (PVC) polymer films. XRD analysis is applied to the prepared samples and the formation of GO is confirmed. Raman scattering measurements for GO and fGO samples confirmed the existence of the D band and G band at 1337 and 1598 cm−1. In addition, the ID/IG ratio increased for the PVC/fGO nanocomposite films, indicating that the relative fraction of sp2-hybridized carbon atom was lowered, and the distorted structure of PVC/fGO nanocomposites. Dispersion of fGO in the PVC/fGO composites was also observed using SEM. DMA measurements revealed that the nanocomposite samples exhibit higher storage moduli than pure PVC as the storage modulus for pure PVC at 20 °C is 173 MPa, whereas it is 176, 334, 498, and 920 MPa for 0.1, 0.3, 0.5, and 1.0 wt% fGO loading, respectively. The glass transition of the nanocomposite films from tan (δ) peaks is for PVC 72.69 °C, whereas it is 74.45, 77.53, 81.59, and 89.59 °C for 0.1, 0.3, 0.5, and 1.0 wt% fGO loading, respectively. FTIR spectroscopy was used to identify interaction in PVC/fGO polymer composites, which the peak around 863 cm−1 of pure film shifts to a lower wavenumber ~ 833 cm−1 with the incorporation of fGO, indicating the existence of strong and intramolecular hydrogen bonding between free C–Cl of PVC and amino groups of fGO. The direct optical energy gap (Eopt) decreased from 5.21 to 5.04 eV and Urbach energy (EU) increased with increasing fGO content. The average excitation energy for electronic transitions (Eo), the dispersion energy (Ed), refractive index, dipole strength (f), optical conductivity, and both static and high-frequency dielectric constants are enhanced with increasing fGO content. Finally, the ratio of free carriers to effective mass (N/m) increased from 3.68 × 1056 to 12.28 × 1056 m−3 kg−1 and plasma frequency (ω) increased with increasing fGO wt%. This research demonstrates the effect of functionalized graphene oxide (fGO) by γ-aminopropyltriethoxysilane (APTES) on the structural, dynamic mechanical, and optical properties of polyvinyl chloride (PVC) polymer films. XRD analysis is applied to the prepared samples and the formation of GO is confirmed. Raman scattering measurements for GO and fGO samples confirmed the existence of the D band and G band at 1337 and 1598 cm −1 . In addition, the I D / I G ratio increased for the PVC/fGO nanocomposite films, indicating that the relative fraction of sp 2 -hybridized carbon atom was lowered, and the distorted structure of PVC/fGO nanocomposites. Dispersion of fGO in the PVC/fGO composites was also observed using SEM. DMA measurements revealed that the nanocomposite samples exhibit higher storage moduli than pure PVC as the storage modulus for pure PVC at 20 °C is 173 MPa, whereas it is 176, 334, 498, and 920 MPa for 0.1, 0.3, 0.5, and 1.0 wt% fGO loading, respectively. The glass transition of the nanocomposite films from tan ( δ ) peaks is for PVC 72.69 °C, whereas it is 74.45, 77.53, 81.59, and 89.59 °C for 0.1, 0.3, 0.5, and 1.0 wt% fGO loading, respectively. FTIR spectroscopy was used to identify interaction in PVC/fGO polymer composites, which the peak around 863 cm −1 of pure film shifts to a lower wavenumber ~ 833 cm −1 with the incorporation of fGO, indicating the existence of strong and intramolecular hydrogen bonding between free C–Cl of PVC and amino groups of fGO. The direct optical energy gap ( E opt ) decreased from 5.21 to 5.04 eV and Urbach energy ( E U ) increased with increasing fGO content. The average excitation energy for electronic transitions ( E o ), the dispersion energy ( E d ), refractive index, dipole strength ( f ), optical conductivity, and both static and high-frequency dielectric constants are enhanced with increasing fGO content. Finally, the ratio of free carriers to effective mass (N/m) increased from 3.68 × 10 56 to 12.28 × 10 56 m −3 kg −1 and plasma frequency ( ω ) increased with increasing fGO wt%.
ArticleNumber	600
Author	Saleh, Ahmed Taha, T. A.
Author_xml	– sequence: 1 givenname: T. A. orcidid: 0000-0002-5772-5956 surname: Taha fullname: Taha, T. A. email: taha.hemida@yahoo.com organization: Physics and Engineering Mathematics Department, Faculty of Electronic Engineering, Menoufia University – sequence: 2 givenname: Ahmed surname: Saleh fullname: Saleh, Ahmed organization: Science and Technology Center of Excellence (STCE)
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Snippet	This research demonstrates the effect of functionalized graphene oxide (fGO) by γ-aminopropyltriethoxysilane (APTES) on the structural, dynamic mechanical, and...
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SubjectTerms	Aminopropyltriethoxysilane Applied physics Bonding strength Characterization and Evaluation of Materials Condensed Matter Physics Dielectric strength Energy gap Fourier transforms Hydrogen bonding Hydrogen storage Machines Manufacturing Materials science Mechanical properties Nanocomposites Nanotechnology Optical and Electronic Materials Optical properties Physics Physics and Astronomy Polymer films Polymer matrix composites Polymers Polyvinyl chloride Processes Raman spectra Refractivity Storage modulus Surfaces and Interfaces Thin Films Wavelengths
Title	Dynamic mechanical and optical characterization of PVC/fGO polymer nanocomposites
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