ITO/PQT-12 /CdSe量子点/Au自供电光电探测器的热电效应研究

2023 International Conference on Recent Advances in Electrical, Electronics & Digital Healthcare Technologies (REEDCON) Pub Date : 2023-05-01 DOI:10.1109/REEDCON57544.2023.10151153

Varun Goel, H. Kumar

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摘要

本文分析了ITO/PQT-12/CdSe量子点/ au基光电探测器的瞬态行为，以研究其热光电子效应。采用自底向上热注射法制备了胶体CdSe量子点(平均粒径为4.69 nm)，并采用自旋镀膜技术进行了沉积。PQT-12的沉积采用滴铸和旋转涂层技术。在自偏置(0-V)下进行了器件的行为研究。利用热释电材料如CdSe和PQT-12在光瞬态中启动热释光电子效应。本研究在Arduino UNO控制的紫外和白光光源下进行。该装置显示了从开灯到稳定热状态的4个阶段的热敏光电子效应。对紫外光和白光LED光源进行了对比研究。该器件对紫外光的响应速度快，上升时间为9.68 ms，下降时间为10.9 ms。

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Study of Pyro-phototronic Effect in ITO/PQT-12 /CdSe QDs/Au based Self-Powered Photodetector

This paper analyzes the transient behavior of the ITO/PQT-12/CdSe QDs/Au-based photodetector to study the pyro-phototronic effect. The colloidal CdSe Quantum Dots (QDs) used in the device has been prepared using the bottom-up hot injection method (average particle size is 4.69 nm) and deposited using the spin coating technique. PQT-12 is deposited using both drop cast and spin coating techniques. The device’s behavior study has been performed under self-bias (0-V). Utilizing pyroelectric materials like CdSe and PQT-12 initiates the pyro-phototronic effect during light transients. The study was carried out under UV and white light sources controlled using Arduino UNO. The device shows 4-stages of the pyro-phototronic effect, starting from switching the light ON to the stable thermal condition. A comparative study using UV light and white light LED sources has been presented. The device under consideration shows a quick response to UV light with a rise and fall time of 9.68 and 10.9 ms, respectively.

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2023 International Conference on Recent Advances in Electrical, Electronics & Digital Healthcare Technologies (REEDCON)

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