Decipher the Wavelength and Intensity Using Photothermoelectric Detectors

光探测 光电探测器 响应度 材料科学 探测器 光电子学 光热治疗 破译 宽带 光学 硫系化合物 纳米技术 物理 生物信息学 生物
作者
Jiamin Zhou,Shengduo Xu,Yi Shuai,Qiang Sun,Huangshui Ma,Chao Wang,Haijuan Wu,Shanshan Tan,Zegao Wang,Lei Yang
出处
期刊:ACS Applied Materials & Interfaces [American Chemical Society]
卷期号:16 (36): 47923-47930 被引量:5
标识
DOI:10.1021/acsami.4c10489
摘要

Broadband photodetectors that can decipher the wavelength (λ) and intensity (I) of an unknown incident light are urgently demanded. Photothermoelectric (PTE) detectors can achieve ultrabroadband photodetection surpassing the bandgap limitation; however, their practical application is severely hampered by the lack of deciphering strategy. In this work, we report a variable elimination method to decipher λ and I of the incident lights based on an integrated Ag2Se film-based PTE detector. Nanostructured Ag2Se films with controlled thickness are synthesized using an ion sputtering of Ag and a room-temperature selenization method and then assembled into a detector. Under identical illumination, Ag2Se films of different thicknesses produce varying output photothermal voltages, influenced by factors including λ. By establishing a direct relationship between the photothermal voltage and the absorption of Ag2Se films of varied thickness, we successfully eliminate variables independent of λ, thus determining λ. Subsequently, I is determined by the calibrated responsivity relationship using obtained λ. Our PTE detector achieves a broadband spectrum from 400 to 950 nm and high accuracy, with deviations as low as ∼2.63 and ∼0.53% for deciphered λ and I, respectively. This method allows for self-powered broadband decipherable photodetection without a complex device architecture or computational assistance, which could boost the research enthusiasm and promote the commercialization of PTE broadband detectors.
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