Organic electrochemical transistors for biosensing

Organic and Hybrid Sensors and Bioelectronics XIV Pub Date : 2021-08-01 DOI:10.1117/12.2595771
S. Inal
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Abstract

Conjugated polymers provide a unique toolbox for establishing electrical communication with biological systems. In the first half of this talk, I will introduce the type of conjugated polymers used at the biological interface. I will then show how we designed organic electrochemical transistors (OECTs) for protein detection at the physical limit and challenged them using COVID-19 patient samples, marking a considerable step toward biochemical sensing. I will discuss that advances in bioelectronic device designs do not appear by chance but stem from in-depth investigations of the active materials' transport properties, understanding of device operation, and enhancing materials’ compatibility with biorecognition units.
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生物传感用有机电化学晶体管
共轭聚合物为建立与生物系统的电通信提供了一个独特的工具箱。在本讲座的前半部分,我将介绍用于生物界面的共轭聚合物的类型。然后,我将展示我们如何在物理极限下设计用于蛋白质检测的有机电化学晶体管(OECTs),并使用COVID-19患者样本对其进行挑战,这标志着向生化传感迈出了相当大的一步。我将讨论生物电子器件设计的进步不是偶然出现的,而是源于对活性材料传输特性的深入研究,对器件操作的理解,以及增强材料与生物识别单元的兼容性。
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Organic and Hybrid Sensors and Bioelectronics XIV
Organic and Hybrid Sensors and Bioelectronics XIV
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Front Matter: Volume 11810 Tuning optical properties of conjugated molecules by Lewis acids: Insights from electronic structure modeling and machine learning Enhanced lead sulfide quantum dots infrared photodetector performance through ligand exchange Organic radiation detectors for real-time dosimetry Organic field-effect transistors as radiation dosimeters in medical applications
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