Indian Journal of Pure and Applied Physics

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Structural, AC and DC Electrical Transport Properties of Nano Titania - Polyacrylamide Composite Films


Affiliations
1 Department of Physics, Karnatak University's Karnatak Science College, Dharwad 580 001, Karnataka, India

The microstructural features as well as the AC and DC electrical properties of titanium dioxide (titania or TiO2) nanoparticle (NP) filled polyacrylamide (PAM) composite films with filler level (FLs) Varied from 0.02 up to 19.5 Wt % were experimentally studied . SEM images revealed that the composite films with FLs equal to 0.02 and 0.40 Wt % (low FLs) showed homogeneous dispersion of spherical TiO2 NPs, whereas aggregation of the filler was observed at higher FLs. The XRD patterns of these composite films revealed an increase in their amorphousness at low FLs. The activation energy (Ea) determined from Arrhenius equation showed that the composite with FL equal to 0.40 Wt % exhibited the lowest value of Ea (equal to 0.84 eV). Dielectric study revealed that the composite film with FL equal to 0.40 Wt % exhibited the highest value bulk conductivity at room temperature (4.39×10-6S m-1 at 303 K). Hence, the composite sample with FL 0.40Wt %, along with pure PAM, were subjected to a detailed dielectric study at various fixed temperatures ranging from 303K up to 353K. The composite sample with FL 0.40 Wt % showed a maximum bulk conductivity of 1.12×10-4 S m- 1at temperature 353K, while it was 3.45×10-8 S m-1 for pure PAM at 303 K.
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  • Structural, AC and DC Electrical Transport Properties of Nano Titania - Polyacrylamide Composite Films

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Authors

G Veena
Department of Physics, Karnatak University's Karnatak Science College, Dharwad 580 001, Karnataka, India
BLAISE LOBO
Department of Physics, Karnatak University's Karnatak Science College, Dharwad 580 001, Karnataka, India

Abstract


The microstructural features as well as the AC and DC electrical properties of titanium dioxide (titania or TiO2) nanoparticle (NP) filled polyacrylamide (PAM) composite films with filler level (FLs) Varied from 0.02 up to 19.5 Wt % were experimentally studied . SEM images revealed that the composite films with FLs equal to 0.02 and 0.40 Wt % (low FLs) showed homogeneous dispersion of spherical TiO2 NPs, whereas aggregation of the filler was observed at higher FLs. The XRD patterns of these composite films revealed an increase in their amorphousness at low FLs. The activation energy (Ea) determined from Arrhenius equation showed that the composite with FL equal to 0.40 Wt % exhibited the lowest value of Ea (equal to 0.84 eV). Dielectric study revealed that the composite film with FL equal to 0.40 Wt % exhibited the highest value bulk conductivity at room temperature (4.39×10-6S m-1 at 303 K). Hence, the composite sample with FL 0.40Wt %, along with pure PAM, were subjected to a detailed dielectric study at various fixed temperatures ranging from 303K up to 353K. The composite sample with FL 0.40 Wt % showed a maximum bulk conductivity of 1.12×10-4 S m- 1at temperature 353K, while it was 3.45×10-8 S m-1 for pure PAM at 303 K.