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Highly Sensitive and Ultra-Broadband VO<sub>2</sub>(B) Photodetector Dominated by Bolometric Effect

Yujing Zhang, Ximiao Wang, Ximiao Wang, Yang Zhou, Haojie Lai, Pengyi Liu, Huanjun Chen, Xiaomu Wang, Xiaomu Wang, Weiguang Xie

2021Nano Letters53 citationsDOI

Abstract

In this study, Wadsley B phase vanadium oxide (VO2(B)) with broad-band photoabsorption ability, a large temperature coefficient of resistance (TCR), and low noise was developed for uncooled broad-band detection. By using a freestanding structure and reducing the size of active area, the VO2(B) photodetector shows stable and excellent performances in the visible to the terahertz region (405 nm to 0.88 mm), with a peak TCR of −4.77% K–1 at 40 °C, a peak specific detectivity of 6.02 × 109 Jones, and a photoresponse time of 83 ms. A terahertz imaging ability with 30 × 30 pixels was demonstrated. Scanning photocurrent imaging and real-time temperature–photocurrent measurements confirm that a photothermal-type bolometric effect is the dominating mechanism. The study shows the potential of VO2(B) in applications as a new type of uncooled broad-band photodetection material and the potential to further raise the performance of broad-band photodetectors by structural design.

Topics & Concepts

BolometerPhotocurrentPhotodetectorMaterials scienceOptoelectronicsPhotodetectionTerahertz radiationPhotoconductivityVanadium oxideOpticsOxidePhysicsDetectorMetallurgyTransition Metal Oxide NanomaterialsGas Sensing Nanomaterials and SensorsGa2O3 and related materials
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