生物传感器
化学
晶体管
光电导性
光电子学
电解质
纳米技术
生物电子学
转导(生物物理学)
材料科学
电极
电压
电气工程
生物化学
工程类
物理化学
作者
Na Dong,Shuda Liu,Zuo Chen,Shuyun Meng,Donghao He,Xiuhua Yuan,Dong Liu,Tianyan You
标识
DOI:10.1021/acs.analchem.5c03035
摘要
Increasing ion mobility is an important requirement for advancing organic electrochemical transistors (OECTs), necessitating specialized materials and optimized structural designs. Herein, we propose a photoconductive gain-enabled OECT that increases ion mobility within the electrolyte via light-matter interactions. Using photoelectroactive material as the gate component, voltage-driven redox reactions of the probe at the gate interface induce ion migration, serving as the foundation for OECT signal transduction. Furthermore, light-driven electron-hole pair separation at the gate increases the local positive charge density, promoting ion injection into the channel and amplifying signal transduction. Under light stimulation, the OECT converts light energy into an amplified current modulation, resulting in a 2.72-fold photoconductive gain and good redox potential discriminability. This system shows strong potential for using in electrochemical biosensing. The biosensor sensitivity increases 65-fold following signal transduction by the photoconductive gain-enabled OECT. The realization of high photoconductive gain in this OECT presents a substantial opportunity for the intelligent application of this technology.
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