大面积低噪声柔性有机光电二极管，用于探测微弱可见光。

Large-area low-noise flexible organic photodiodes for detecting faint visible light.

机构信息

Center for Organic Photonics and Electronics (COPE), School of Electrical and Computer Engineering, Georgia Institute of Technology, Atlanta, GA 30332, USA.

出版信息

Science. 2020 Nov 6;370(6517):698-701. doi: 10.1126/science.aba2624.

DOI:10.1126/science.aba2624

PMID:33154137

Abstract

Silicon photodiodes are the foundation of light-detection technology; yet their rigid structure and limited area scaling at low cost hamper their use in several emerging applications. A detailed methodology for the characterization of organic photodiodes based on polymeric bulk heterojunctions reveals the influence that charge-collecting electrodes have on the electronic noise at low frequency. The performance of optimized organic photodiodes is found to rival that of low-noise silicon photodiodes in all metrics within the visible spectral range, except response time, which is still video-rate compatible. Solution-processed organic photodiodes offer several design opportunities exemplified in a biometric monitoring application that uses ring-shaped, large-area, flexible, organic photodiodes with silicon-level performance.

摘要

硅光电二极管是光探测技术的基础；然而，它们的刚性结构和低成本下有限的面积扩展限制了它们在一些新兴应用中的使用。一种基于聚合物体异质结的有机光电二极管的详细特性分析方法揭示了电荷收集电极对低频电子噪声的影响。在可见光谱范围内，优化后的有机光电二极管的性能在所有指标上都可与低噪声硅光电二极管相媲美，除了响应时间，它仍然与视频速率兼容。溶液处理的有机光电二极管提供了几个设计机会，在一个生物特征监测应用中得到了体现，该应用使用具有硅级性能的环形、大面积、柔性、有机光电二极管。

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大面积低噪声柔性有机光电二极管，用于探测微弱可见光。

Large-area low-noise flexible organic photodiodes for detecting faint visible light.

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