Self-powered infrared detector enabled by interfacial anchoring and thermal reinforcement

Nano Trends Pub Date : 2024-11-17 DOI:10.1016/j.nwnano.2024.100061

Xiaolan Luo, Weixiong Li, Liu Yuan, Guangzhong Xie, Yuanjie Su

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Abstract

Pyroelectricity enables autonomous perception and remote detection in the field of infrared sensor, human machine interfacing and virtual reality. However, the low pyroelectric coefficient and inferior thermal conductivity hinders the energy conversion and signal transduction of pyroelectric sensors. Herein, we designed and prepared PZT-CNT/PVDF ternary composite (PTC) capable of infrared sensing and noncontact human machine interfacing (HMI). The incorporation of CNT not only facilitates the photo-thermal energy conversion and the heat transfer toward embedded PZT fillers, but also boost the all-trans conformation of fluoropolymer matrix and thus pyroelectric activity. The influence of CNT doping mass fractions on the pyroelectric noncontacted HMI and infrared detection properties was investigated. It is found that a doping content of 3 wt% gives rise to an optimal proximity sensitivity of 55.78 % and infrared detection optimum value of F_d 6.42 μPa^−1/2, which is 13.97 % higher than that of the undoped version. This work provides insight into the interfacial coupling mechanism of pyroelectrics, and offers the new possibility for design of high-performance self-powered sensing devices.

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通过界面锚固和热加固实现自供电红外探测器

热释电使红外传感器、人机界面和虚拟现实领域的自主感知和远程探测成为可能。然而，热释电系数低和热导率差阻碍了热释电传感器的能量转换和信号传输。在此，我们设计并制备了 PZT-CNT/PVDF 三元复合材料 (PTC)，它能够进行红外传感和非接触式人机界面 (HMI)。CNT 的加入不仅促进了光热能量转换和向嵌入式 PZT 填料的热传递，还提高了氟聚合物基体的全反式构象，从而提高了热释电活性。研究了碳纳米管掺杂质量分数对热释电非接触式人机界面和红外探测性能的影响。结果发现，掺杂量为 3 wt% 时，最佳接近灵敏度为 55.78%，红外探测最佳值为 Fd 6.42 μPa-1/2，比未掺杂的版本高 13.97%。这项研究深入揭示了热释电的界面耦合机制，为设计高性能自供电传感设备提供了新的可能性。

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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