Sensor organic light-emitting diode display, combining fingerprint and biomarker capturing

Chul Kim, Kwang Soo Bae, Gunhee Kim, Dae-Young Lee, Gyeongub Moon, Dongwook Yang, Hyeonjun Lee, Jongyeop An, Jungwoo Park, Seokgyu Yoon, Cheol Gon Lee, Mu Kyung Jeon, Sanghwan Cho, Sunghan Kim, Yongjo Kim, Changhee Lee
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Abstract

Display has been evolving its role as a conventional optical output device into an user interactive input and output device by harnessing various sensors and taking full advantage of its user interaction friendly nature. To demonstrate this phenomenon, here we report a full organic photodiode embedded organic light-emitting diode display as multiple objects sensing platform which identifies the user’s physiological data based on the obtained photoplethysmography signal and also detects a fingerprint for an authentication concurrently in a single device. This paper introduces the technical breakthroughs to solve the complex technical challenges due to the crosstalks induced within the shared common layers during the full integration of the two conflicting devices and also the method made possible for the multiple objects sensing with the measurement results. Consequently, we believe it could prove a progression of display to a fully bidirectional innovative smart user interactive device and also could take a role as a sophisticated future display beyond organic light-emitting diode display. Chul Kim and colleagues show a sensor display which is able to capture biometric data. In one device, they combine fingerprint identification and biomarker estimation while maintaining the same display quality.

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传感器有机发光二极管显示屏,兼具指纹和生物标记捕捉功能
通过利用各种传感器并充分利用其用户交互友好的特性,显示器已从传统的光学输出设备发展成为用户交互式输入和输出设备。为了展示这一现象,我们在此报告了一种全有机光电二极管嵌入式有机发光二极管显示屏,作为多物体传感平台,该显示屏可根据获得的光电血压信号识别用户的生理数据,还可在单一设备中同时检测用于身份验证的指纹。本文介绍了在技术上的突破,以解决在两个相互冲突的设备完全集成过程中由于共享共用层内的串扰而产生的复杂技术难题,并介绍了利用测量结果实现多目标传感的方法。因此,我们相信它可以证明显示屏向完全双向创新智能用户交互设备的发展,也可以作为未来超越有机发光二极管显示屏的复杂显示屏发挥作用。Chul Kim 及其同事展示了一种能够捕捉生物特征数据的传感器显示器。在一个设备中,他们将指纹识别和生物标记估计结合在一起,同时保持了相同的显示质量。
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