The charge states in polypropylene doped with ZrO2 nanoparticles and their changes at heat treatment

IF 1.6 4区 物理与天体物理 Q3 PHYSICS, CONDENSED MATTER The European Physical Journal B Pub Date : 2024-10-17 DOI:10.1140/epjb/s10051-024-00801-5
Hijran S. Ibrahimova, Tahir D. Ibragimov
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Abstract

Charge states of polypropylene doped with zirconium oxide nanoparticles and their changes during heat treatment at different temperatures are studied by the method of thermally stimulated depolarization (TSD) current. It is shown that two peaks associated with the release of charge from different types of traps appear on the TSD thermograms for both pure polypropylene and composites. With an increase in the concentration of the filler, the intensity of the peaks increases up to 3 vol.%. A further increase in concentration leads to a decrease in the intensity of the peaks. The activation energy of charge release from traps, temperature of maximum of the peaks, and the magnitude of the accumulated charge in the traps have also maximal value at nanoparticle concentration of 3 vol.%. The study of charge characteristics of the nanocomposite with concentration of 3 vol.% after heat treatment shows that the intensity of TSD peaks, the temperature of peak maxima, and the activation energy of charge release increase with increasing pre-treatment temperature. The magnitude of the charge accumulated in traps at low treatment temperatures is practically unchanged but has a maximal value at treatment temperature of 140 °C owing to the increase in the number of traps.

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掺杂纳米二氧化锆的聚丙烯中的电荷状态及其在热处理时的变化
通过热刺激去极化(TSD)电流法研究了掺杂氧化锆纳米粒子的聚丙烯的电荷状态及其在不同温度热处理过程中的变化。结果表明,纯聚丙烯和复合材料的 TSD 热图上都出现了两个与不同类型捕获器释放电荷有关的峰值。随着填料浓度的增加,峰值强度也会增加,最高可达 3 Vol.%。浓度进一步增加会导致峰值强度降低。在纳米粒子浓度为 3 Vol.% 时,陷阱中电荷释放的活化能、峰值最大值的温度和陷阱中累积电荷的大小也达到最大值。对热处理后浓度为 3 Vol.% 的纳米复合材料的电荷特性的研究表明,随着预处理温度的升高,TSD 峰的强度、峰值最大值的温度和电荷释放的活化能都会增加。在低处理温度下,捕获器中积累的电荷量几乎没有变化,但由于捕获器数量的增加,在处理温度为 140 °C 时电荷量达到最大值。
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来源期刊
The European Physical Journal B
The European Physical Journal B 物理-物理:凝聚态物理
CiteScore
2.80
自引率
6.20%
发文量
184
审稿时长
5.1 months
期刊介绍: Solid State and Materials; Mesoscopic and Nanoscale Systems; Computational Methods; Statistical and Nonlinear Physics
期刊最新文献
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