基于等温表面电位衰减测量的聚合物中陷阱的能量分布

Wen-Wei Shen, Guo-Li Wang, Yushu Niu, Jun-Liang Wang, Li-Miao Zhang, Yiqun Zhang, Guanjun Zhang
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引用次数: 3

摘要

电荷陷阱对聚合物等固体介质中的电荷输运、捕获和复合有重要影响。本文基于等温表面电位衰减测量,研究了低密度聚乙烯(LDPE)、聚丙烯(PP)和聚酯(PET)三种聚合物中陷阱的能量分布。推导了疏水阀的测量计算公式,并专门设计了疏水阀非接触式测量装置。该装置的一个优点是,电子或空穴陷阱参数可以通过选择负电荷或正电荷分别确定。根据所获得的公式,可以对材料的电子和空穴捕获参数进行评估。结果表明,PET的电势衰减最快,这可能是由于电晕充电时注入体内的电荷较多。随着温度的升高,正负电位衰减速度加快。PET的陷阱密度远高于LDPE和PP,显示出PET分子的高极性。
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The energy distribution of traps in polymers based on isothermal surface potential decay measurement
Charge traps have great influence on charge transport, trapping and recombination in solid dielectrics such as polymers. In this paper, the energy distribution of traps in three polymers i.e. low density polyethylene (LDPE), polypropylene (PP) and polyester (PET) has been studied, based on the isothermal surface potential decay measurement. Trap measurement and calculation formula is deduced and a trap non-contact measurement setup is specially designed. One excellence of the device is that electron or hole trap parameters can be determined by choosing negative or positive charging, respectively. On the basis of the formula acquired, the electron and hole trapping parameters of the material can be evaluated. Results reveal that potential of PET decays the fastest among these materials, probably because there is more charge injection into the bulk during corona charging. With the enhancement of temperature, both negative and positive potentials decay faster. The trap density of PET is much higher than LDPE and PP, which reveals the high polarity of the PET molecule.
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