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Organic Mixed Conductors in Electrochemical Transistors for Bioelectronic Applications
Accounts of Materials Research ( IF 14.0 ) Pub Date : 2024-07-06 , DOI: 10.1021/accountsmr.4c00124 Jiajun Song 1 , Li Li 2 , Wai-Yeung Wong 3, 4 , Feng Yan 1, 4
Accounts of Materials Research ( IF 14.0 ) Pub Date : 2024-07-06 , DOI: 10.1021/accountsmr.4c00124 Jiajun Song 1 , Li Li 2 , Wai-Yeung Wong 3, 4 , Feng Yan 1, 4
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Organic semiconductors have emerged as promising materials for facilitating communication between electronic systems and biological entities due to their distinctive advantages, such as structural similarity to biological substances, biocompatibility, tailorability, and mechanical flexibility. Organic bioelectronics mainly focuses on developing devices capable of sensing biological substances and signals, as well as stimulating or regulating biological processes. This interdisciplinary field encompasses various applications, ranging from healthcare monitoring and diagnostics to neuroprosthetics and human–machine interfaces.
中文翻译:
生物电子应用电化学晶体管中的有机混合导体
有机半导体因其独特的优势(例如与生物物质的结构相似性、生物相容性、可定制性和机械灵活性)而成为促进电子系统和生物实体之间通信的有前途的材料。有机生物电子学主要致力于开发能够感知生物物质和信号以及刺激或调节生物过程的装置。这个跨学科领域涵盖各种应用,从医疗保健监测和诊断到神经修复和人机界面。
更新日期:2024-07-06
中文翻译:
生物电子应用电化学晶体管中的有机混合导体
有机半导体因其独特的优势(例如与生物物质的结构相似性、生物相容性、可定制性和机械灵活性)而成为促进电子系统和生物实体之间通信的有前途的材料。有机生物电子学主要致力于开发能够感知生物物质和信号以及刺激或调节生物过程的装置。这个跨学科领域涵盖各种应用,从医疗保健监测和诊断到神经修复和人机界面。
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