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用于超越几何限制的光纤光电器件的螺旋缠绕碳纳米管微电极,面向智能可穿戴电子纺织品应用。

Spirally Wrapped Carbon Nanotube Microelectrodes for Fiber Optoelectronic Devices beyond Geometrical Limitations toward Smart Wearable E-Textile Applications.

作者信息

Kim Hyoungjun, Kang Tae-Hyung, Ahn Jongtae, Han Hyemi, Park Seongjin, Kim Soo Jin, Park Min-Chul, Paik Seung-Ho, Hwang Do Kyung, Yi Hyunjung, Lim Jung Ah

机构信息

Center for Optoelectronic Materials and Devices, Korea Institute of Science and Technology, Seoul 02792, Republic of Korea.

Department of Nano and Information Technology, KIST School, Korea University of Science and Technology (KUST), Daejeon 34113, Republic of Korea.

出版信息

ACS Nano. 2020 Dec 22;14(12):17213-17223. doi: 10.1021/acsnano.0c07143. Epub 2020 Dec 9.

Abstract

Fiber optoelectronics technology has recently attracted attention as enabling various form factors of wearable electronics, and the issue of how to control and optimize the configuration and physical properties of the electrode micropatterns in the microfiber devices has become important. Here, spirally wrapped carbon nanotube (CNT) microelectrodes with a controlled dimension are demonstrated for high-performance fiber optoelectronic devices. Inkjet-printed CNT microelectrodes with the desired dimension on an agarose hydrogel template are rolling-transferred onto a microfiber surface with an efficient electrical interface. A fiber organic field-effect transistor with spirally wrapped CNT microelectrodes verifies the feasibility of this strategy, where the transferred microelectrodes intimately contact the organic semiconductor active layer and the output current characteristics are simply controlled, resulting in characteristics that exceed the previous structural limitations. Furthermore, a fiber organic photodiode with spirally wrapped CNT microelectrodes, when used as a transparent electrode, exhibits a high / ratio and good durability of bending. This fiber photodiode can be successfully incorporated into a textile photoplethysmography bandage for the real-time monitoring of human vital signals. This work offers a promising and efficient strategy to overcome the geometric factors limiting the performance of fiber-optic optoelectronic devices.

摘要

光纤电子技术最近作为可实现各种形式的可穿戴电子产品的技术而受到关注,并且如何控制和优化微纤维器件中电极微图案的配置和物理特性这一问题变得至关重要。在此,展示了用于高性能光纤电子器件的具有可控尺寸的螺旋缠绕碳纳米管(CNT)微电极。在琼脂糖水凝胶模板上通过喷墨打印出具有所需尺寸的CNT微电极,并通过高效的电接口将其滚动转移到微纤维表面。具有螺旋缠绕CNT微电极的纤维有机场效应晶体管验证了该策略的可行性,其中转移的微电极与有机半导体有源层紧密接触,并且输出电流特性易于控制,从而产生超越先前结构限制的特性。此外,具有螺旋缠绕CNT微电极的纤维有机光电二极管在用作透明电极时,表现出高的/比率和良好的弯曲耐久性。这种纤维光电二极管可以成功地集成到用于实时监测人体生命信号的纺织光电容积描记绷带中。这项工作提供了一种有前景且高效的策略,以克服限制光纤光电器件性能的几何因素。

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