期刊
JOURNAL OF THE INDIAN CHEMICAL SOCIETY
卷 99, 期 11, 页码 -出版社
ELSEVIER
DOI: 10.1016/j.jics.2022.100772
关键词
Chlorinated polyethylene; Copper alumina; Nanocomposites; Optical properties; Thermal stability; Temperature dependent conductivity; Dielectric parameters; Modeling
This study focused on the optical, thermal, electrical, and dielectric properties of chlorinated polyethylene/copper alumina (CPE/Cu-Al2O3) nanocomposites. The incorporation of Cu-Al2O3 nanoparticles into the CPE matrix improved the properties of the nanocomposites. 7 wt% Cu-Al2O3 loaded sample exhibited the best performance.
The incorporation of transition metal oxide fillers into the polymer matrix through solution mixing polymeri-zation imparts enhanced electrical and thermal properties. The present work focused on the optical properties, crystallinity, thermal stability, temperature-dependent conductivity, dielectric constant and modulus of chlori-nated polyethylene/copper alumina (CPE/Cu-Al2O3) nanocomposites. Optical absorption measured using an ultraviolet-visible (UV-visible) spectrometer shows enhanced intensity and a blue shift for CPE/Cu-Al2O3 nanocomposites. The bandgap energy of CPE/Cu-Al2O3 nanocomposites was lower than pure CPE and minimum bandgap energy was recorded for a 7 wt% composites. The X-ray diffraction demonstrates that Cu-Al2O3 nanoparticles were uniformly introduced into the CPE matrix. Thermogravimetric analysis (TGA) manifests improved thermal stability of nanocomposites. Dielectric properties decrease with frequency, whereas AC con-ductivity increases with frequency, and both AC conductivity and dielectric properties increase with tempera-ture. The maximum AC conductivity and dielectric constant were obtained for 7 wt % nanofiller loaded sample. For all systems, the activation energy for electrical conductivity decreases with rising temperatures. The experimental dielectric constant values of CPE nanocomposites were correlated with different theoretical models. The Bruggeman model was in good agreement with the experimental permittivity. The impedance experiments showed a decreasing trend with temperature, indicating the semiconducting nature of prepared nanocomposites.
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