Carrier dynamic identification enables wavelength and intensity sensitivity in perovskite photodetectors

IF 20.6 Q1 OPTICS
Liangliang Min, Yicheng Zhou, Haoxuan Sun, Linqi Guo, Meng Wang, Fengren Cao, Wei Tian, Liang Li
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Abstract

Deciphering the composite information within a light field through a single photodetector, without optical and mechanical structures, is challenging. The difficulty lies in extracting multi-dimensional optical information from a single dimension of photocurrent. Emerging photodetectors based on information reconstruction have potential, yet they only extract information contained in the photoresponse current amplitude (responsivity matrix), neglecting the hidden information in response edges driven by carrier dynamics. Herein, by adjusting the thickness of the absorption layer and the interface electric field strength in the perovskite photodiode, we extend the transport and relaxation time of carriers excited by photons of different wavelengths, maximizing the spectrum richness of the edge waveform in the light-dark transition process. For the first time, without the need for extra optical and electrical components, the reconstruction of two-dimensional information of light intensity and wavelength has been achieved. With the integration of machine learning algorithms into waveform data analysis, a wide operation spectrum range of 350–750 nm is available with a 100% accuracy rate. The restoration error has been lowered to less than 0.1% for light intensity. This work offers valuable insights for advancing perovskite applications in areas such as wavelength identification and spectrum imaging.

Abstract Image

载流子动态识别实现了过氧化物光电探测器的波长和强度灵敏度
在没有光学和机械结构的情况下,通过单个光电探测器破译光场内的复合信息具有挑战性。困难在于如何从单一维度的光电流中提取多维光学信息。基于信息重构的新兴光电探测器具有潜力,但它们只能提取光响应电流振幅(响应矩阵)中包含的信息,而忽略了载流子动力学驱动的响应边缘中隐藏的信息。在这里,我们通过调整过氧化物光电二极管中吸收层的厚度和界面电场强度,延长了不同波长光子激发的载流子的传输和弛豫时间,最大限度地丰富了光-暗转换过程中边缘波形的光谱。在无需额外光学和电子元件的情况下,我们首次实现了光强和波长的二维信息重建。在波形数据分析中集成了机器学习算法,可提供 350-750 nm 的宽工作光谱范围,准确率达到 100%。光强还原误差已降至 0.1% 以下。这项工作为推进包晶石在波长识别和光谱成像等领域的应用提供了宝贵的见解。
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来源期刊
Light-Science & Applications
Light-Science & Applications 数理科学, 物理学I, 光学, 凝聚态物性 II :电子结构、电学、磁学和光学性质, 无机非金属材料, 无机非金属类光电信息与功能材料, 工程与材料, 信息科学, 光学和光电子学, 光学和光电子材料, 非线性光学与量子光学
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803
审稿时长
2.1 months
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