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Bipolar Modulation of the Ionic Circuit for Generic Organic Photoelectrochemical Transistor Logic and Sensor
Advanced Optical Materials ( IF 8.0 ) Pub Date : 2022-03-24 , DOI: 10.1002/adom.202102687 Yi‐Tong Xu 1 , Zheng Li 1 , Cheng Yuan 1 , Jia‐Qi Wu 1 , Jin Hu 2 , Peng Lin 2 , Wei‐Wei Zhao 1 , Hong‐Yuan Chen 1 , Jing‐Juan Xu 1
Advanced Optical Materials ( IF 8.0 ) Pub Date : 2022-03-24 , DOI: 10.1002/adom.202102687 Yi‐Tong Xu 1 , Zheng Li 1 , Cheng Yuan 1 , Jia‐Qi Wu 1 , Jin Hu 2 , Peng Lin 2 , Wei‐Wei Zhao 1 , Hong‐Yuan Chen 1 , Jing‐Juan Xu 1
Affiliation
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Photonic (bio)electronic circuits and devices have been an enduring goal in modern photonics and electronics. Organic photoelectrochemical transistor (OPECT) interfacing light with biological world creates a substantial opportunity to this end due to the immense light−bio−matter interplay. Through modulating the invisible ionic circuit of organic electrochemical transistor (OECT) with a bipolar electrode (BPE) accommodating different semiconductor combinations, the unique photonic electronics toward logic and sensor applications are realized. Six combinations of BPEs are produced by the representative n-type CdS/TiO2 and p-type BiOI/NiO semiconductors, and the corresponding photonic characteristics and operation rationale are systematically investigated and explained. Designation of opto-logic circuits and feasibility as a sensory platform are subsequently demonstrated. This work not only represents new photonic bioelectronics but also provides a generic mechanism for the design and development of advanced opto-logics and bio-analytics.
中文翻译:
用于通用有机光电化学晶体管逻辑和传感器的离子电路的双极调制
光子(生物)电子电路和器件一直是现代光子学和电子学的持久目标。由于巨大的光-生物-物质相互作用,有机光电化学晶体管 (OPECT) 将光与生物世界连接起来为此创造了大量机会。通过使用适应不同半导体组合的双极电极 (BPE) 调制有机电化学晶体管 (OECT) 的不可见离子电路,实现了面向逻辑和传感器应用的独特光子电子学。有代表性的 n 型 CdS/TiO 2生产了六种 BPE 组合和 p 型 BiOI/NiO 半导体,以及相应的光子特性和操作原理进行了系统的研究和解释。随后证明了光逻辑电路的指定和作为感觉平台的可行性。这项工作不仅代表了新的光子生物电子学,而且为先进的光逻辑和生物分析的设计和开发提供了通用机制。
更新日期:2022-03-24
中文翻译:
用于通用有机光电化学晶体管逻辑和传感器的离子电路的双极调制
光子(生物)电子电路和器件一直是现代光子学和电子学的持久目标。由于巨大的光-生物-物质相互作用,有机光电化学晶体管 (OPECT) 将光与生物世界连接起来为此创造了大量机会。通过使用适应不同半导体组合的双极电极 (BPE) 调制有机电化学晶体管 (OECT) 的不可见离子电路,实现了面向逻辑和传感器应用的独特光子电子学。有代表性的 n 型 CdS/TiO 2生产了六种 BPE 组合和 p 型 BiOI/NiO 半导体,以及相应的光子特性和操作原理进行了系统的研究和解释。随后证明了光逻辑电路的指定和作为感觉平台的可行性。这项工作不仅代表了新的光子生物电子学,而且为先进的光逻辑和生物分析的设计和开发提供了通用机制。
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