High Voltage Sensitivity of Organic Pyroelectric Sensors with Polarization Treatment during Evaporation Process

The Japan Society of Applied Physics Pub Date : 2017-09-12 DOI:10.7567/ssdm.2017.ps-10-09

Y. Sutani, S. Horike, Tatsuya Fukushima, Y. Koshiba, M. Morimoto, T. Kodani, T. Kanemura, K. Ishida

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Abstract

Control of molecular orientation and electric dipoles in a pyroelectric thin film is one of the most important factors to improve the performance of organic infrared ray (IR) sensors. In this study, we have controlled the molecular dipole in a vinylidene fluoride (VDF) oligomer thin film by applying electric field between micro-gapped comb-like electrodes during vacuum deposition. The dipoles in the normally oriented VDF oligomer were highly aligned to the applied electric field in in-plane direction. The pyroelectric IR sensors, fabricated by the oriented VDF oligomer thin film, exhibited the excellent performance even without the poling treatment after the film deposition. A voltage sensitivity of the sensor showed 1473 V/W at 1 Hz, which was much higher value than that of typical sensors applied with the post-poling (~ 200 V/W). The improvement of the sensitivity is considered to be caused by the reduction of injected charges on the poling treatment, which usually causes the suppression of the dipole fluctuations for temperature change.

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蒸发过程中极化处理有机热释电传感器的高电压灵敏度

热释电薄膜中分子取向和电偶极子的控制是提高有机红外传感器性能的重要因素之一。在本研究中，我们在真空沉积过程中通过在微间隙梳状电极之间施加电场来控制偏氟乙烯(VDF)低聚物薄膜中的分子偶极子。在正常取向的VDF低聚物中偶极子在平面方向上与外加电场高度对齐。利用取向VDF低聚物薄膜制备的热释电红外传感器，在薄膜沉积后无需进行极化处理，也表现出优异的性能。该传感器在1hz时的电压灵敏度为1473 V/W，远高于采用后极化的典型传感器(~ 200 V/W)。灵敏度的提高被认为是由于极化处理中注入电荷的减少引起的，这通常会抑制温度变化引起的偶极子波动。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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The Japan Society of Applied Physics

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