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美国卫生研究院文献>Journal of Applied Physics
>Dielectric relaxation and alternating current conductivity of lanthanum gadolinium and erbium-polyvinyl alcohol doped films
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Dielectric relaxation and alternating current conductivity of lanthanum gadolinium and erbium-polyvinyl alcohol doped films
Fourier transform infrared (FTIR) spectrum dielectric constant, ε′, loss tangent, tan(δ), electric modulus, >M*, and ac conductivity, σac, of pure polyvinyl alcohol (PVA) as well as La-, Gd-, and Er-PVA doped samples have been carried out. The dielectric properties have been studied in the temperature and frequency ranges; 300–450 K and 1 kHz–4 MHz, respectively. FTIR measurements reveal that La3+, Gd3+, and Er3+ ions form complex configuration within PVA structure. Two relaxation processes, namely, ρ and α were observed in pure PVA sample. The first process is due to the interfacial or Maxwell-Wagner-Sillers polarization. The second one is related to the micro-Brownian motion of the main chains. For doped PVA samples, α-relaxation process splits into αa and αc. This splitting is due to the segmental motion in the amorphous (αa) and crystalline (αc) phases of PVA matrix. Electric modulus analysis was discussed to understand the mechanism of the electrical transport process. The behavior of ac conductivity for all PVA samples indicates that the conduction mechanism is correlated barrier hopping.
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