Electrical conduction and polarization of silica-based capacitors under electro-thermal poling

2021 IEEE Conference on Electrical Insulation and Dielectric Phenomena (CEIDP) Pub Date : 2021-12-12 DOI:10.1109/CEIDP50766.2021.9705450

C. Nieves, R. Wilke, S. Bishop, M. Lanagan, P. Clem

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Abstract

Electrical conduction in silica-based capacitors under a combined effect of intermediate electric field and temperature (2.5 – 10 kV/mm, 50-300°C) is dominated by localized motion of high mobility ions such as sodium. Thermally stimulated polarization and depolarization current (TSPC/TSDC) characterization was carried out on poled fused silica and AF32 glass samples. Two relaxation mechanisms were found during the depolarization step and an anomalous response for the second TSDC peak was observed. Absorption current measurements were performed on the glass samples and a time-dependent response was observed when subjected to different electro-thermal conditions. It was found that at low temperature (T = 175 °C) and short times, the current follows a linear behavior (I α V) while at high temperature (T = 250 °C), the current follows V0.5. TSPC/TSDC and absorption current measurements results led to the conclusion that (1) Poole-Frenkel dominates conduction at high temperatures and at longer times and that (2) ionic blockage and/or H+/H3O+ injection are responsible for the observed anomalous current response.

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电热极化下硅基电容器的导电性和极化特性

在中间电场和温度(2.5 - 10 kV/mm, 50-300°C)的综合作用下，硅基电容器的导电主要是高迁移率离子(如钠)的局部运动。对极化熔融二氧化硅和AF32玻璃样品进行了热激极化和退极化电流(TSPC/TSDC)表征。在去极化过程中发现了两种弛豫机制，并观察到第二个TSDC峰的异常响应。对玻璃样品进行了吸收电流测量，并观察了不同电热条件下的时间依赖性响应。在低温(T = 175℃)和短时间内，电流服从线性(I α V)，而在高温(T = 250℃)下，电流服从V0.5。TSPC/TSDC和吸收电流测量结果表明:(1)在高温和较长时间内，Poole-Frenkel主导传导;(2)离子阻塞和/或H+/ h30o +注入是观察到的异常电流响应的原因。

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2021 IEEE Conference on Electrical Insulation and Dielectric Phenomena (CEIDP)

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