Multilayer Graphene Epidermal Electronic Skin

Qiao Yancong; Wang Yunfan; Tian He; Li Mingrui; Jian Jinming; Wei Yuhong; Tian Ye; Wang Dan-Yang; Pang Yu; Geng Xiangshun; Wang Xuefeng; Zhao Yunfei; Wang Huimin; Deng Ningqin; Jian Muqiang; Zhang Yingying; Liang Renrong; Yang Yi; Ren Tian-Ling

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Multilayer Graphene Epidermal Electronic Skin

机译：多层石墨烯表皮电子皮肤

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摘要

Due to its excellent flexibility, graphene has an important application prospect in epidermal electronic sensors. However, there are drawbacks in current devices, such as sensitivity, range, lamination, and artistry. In this work, we have demonstrated a multilayer graphene epidermal electronic skin based on laser scribing graphene, whose patterns are programmable. A process has been developed to remove the unreduced graphene oxide. This method makes the epidermal electronic skin not only transferable to butterflies, human bodies, and any other objects inseparably and elegantly, merely with the assistance of water, but also have better sensitivity and stability. Therefore, pattern electronic skin could attach to every object like artwork. When packed in Ecoflex, electronic skin exhibits excellent performance, including ultrahigh sensitivity (gauge factor up to 673), large strain range (as high as 10%), and long-term stability. Therefore, many subtle physiological signals can be detected based on epidermal electronic skin with a single graphene line. Electronic skin with multiple graphene lines is employed to detect large-range human motion. To provide a deeper understanding of the resistance variation mechanism, a physical model is established to explain the relationship between the crack directions and electrical characteristics. These results show that graphene epidermal electronic skin has huge potential in health care and intelligent systems.

机译：由于其优异的灵活性，石墨烯在表皮电子传感器中具有重要的应用前景。然而，当前设备中存在缺点，例如灵敏度，范围，层压和艺术性。在这项工作中，我们已经证明了基于激光划线石墨烯的多层石墨烯表皮电子皮肤，其图案是可编程的。已经开发了一种方法以除去未更好的石墨烯氧化物。这种方法使表皮电子皮肤不仅可转移到蝴蝶，人体和任何其他物体和优雅，而且仅在水的援助，也具有更好的敏感性和稳定性。因此，图案电子皮肤可以附加到艺术品等每个物体。当填充ECOFLEX时，电子皮肤表现出优异的性能，包括超高敏感性（仪表系数，高达673），应变范围大（高达10％）和长期稳定性。因此，可以基于具有单个石墨烯线的表皮电子皮肤来检测许多微妙的生理信号。具有多个石墨烯线的电子皮肤用于检测大范围的人类运动。为了提供对电阻变化机制的更深入的理解，建立了物理模型来解释裂缝方向和电气特性之间的关系。这些结果表明，石墨烯表皮电子皮肤具有巨大的医疗保健和智能系统。

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来源
《ACS nano》 |2018年第9期|共8页
作者
Qiao Yancong; Wang Yunfan; Tian He; Li Mingrui; Jian Jinming; Wei Yuhong; Tian Ye; Wang Dan-Yang; Pang Yu; Geng Xiangshun; Wang Xuefeng; Zhao Yunfei; Wang Huimin; Deng Ningqin; Jian Muqiang; Zhang Yingying; Liang Renrong; Yang Yi; Ren Tian-Ling;
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作者单位

Tsinghua Univ Inst Microelect Beijing 100084 Peoples R China;

Tsinghua Univ Inst Phys Beijing 100084 Peoples R China;

Tsinghua Univ Inst Microelect Beijing 100084 Peoples R China;

Tsinghua Univ Inst Phys Beijing 100084 Peoples R China;

Tsinghua Univ Inst Microelect Beijing 100084 Peoples R China;

Tsinghua Univ Inst Microelect Beijing 100084 Peoples R China;

Tsinghua Univ Inst Microelect Beijing 100084 Peoples R China;

Tsinghua Univ Inst Microelect Beijing 100084 Peoples R China;

Tsinghua Univ Inst Microelect Beijing 100084 Peoples R China;

Tsinghua Univ Inst Microelect Beijing 100084 Peoples R China;

Tsinghua Univ Inst Microelect Beijing 100084 Peoples R China;

Tsinghua Univ Inst Microelect Beijing 100084 Peoples R China;

Tsinghua Univ Dept Chem Beijing 100084 Peoples R China;

Tsinghua Univ Inst Microelect Beijing 100084 Peoples R China;

Tsinghua Univ Dept Chem Beijing 100084 Peoples R China;

Tsinghua Univ Dept Chem Beijing 100084 Peoples R China;

Tsinghua Univ Inst Microelect Beijing 100084 Peoples R China;

Tsinghua Univ Inst Microelect Beijing 100084 Peoples R China;

Tsinghua Univ Inst Microelect Beijing 100084 Peoples R China;

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原文格式 PDF
正文语种 eng
中图分类分子物理学、原子物理学;
关键词
laser scribed graphene; programmable pattern; epidermal skin; GO lift-off; crack simulation;

机译：激光划线石墨烯;可编程模式;表皮皮肤;去升空;裂纹模拟;

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专利

1. Multilayer Graphene Epidermal Electronic Skin [J] . Qiao Yancong, Wang Yunfan, Tian He, ACS nano . 2018,第9期

机译：多层石墨烯表皮电子皮肤
2. Skin pain sensation of epidermal electronic device/skin system considering non-Fourier heat conduction [J] . Yafei Yin, Min Li, Yuhang Li, Journal of the Mechanics and Physics of Solids . 2020,第May期

机译：考虑非傅立叶导热的表皮电子设备/皮肤系统的皮肤疼痛感
3. Electronic structures and quantum capacitance of monolayer and multilayer graphenes influenced by Al, B, N and P doping, and monovacancy: Theoretical study [J] . Hirunsit Pussana, Liangruksa Monrudee, Khanchaitit Paisan Carbon: An International Journal Sponsored by the American Carbon Society . 2016,第Null期

机译：Al，B，N，P掺杂和单空位对单层和多层石墨烯电子结构和量子电容的影响：理论研究
4. Graphene-Coated Porous PDMS As a Gas Sensor for Potential Epidermal Electronics Applications [C] . Hyung-Kun Lee, Hyung-Ju Park, Do Yeob Kim, Meeting of the Electrochemical Society;International Meeting on Chemical Sensors . 2020

机译：石墨烯涂层多孔PDMS作为潜在表皮电子应用的气体传感器
5. Thermal conduction in graphene and graphene multilayers. [D] . Ghosh, Suchismita. 2009

机译：石墨烯和石墨烯多层中的热传导。
6. Electronic Skin: Carbon Nanofiber versus Graphene‐Based Stretchable Capacitive Touch Sensors for Artificial Electronic Skin (Adv. Sci. 2/2018) [O] . Pietro Cataldi, Simeone Dussoni, Luca Ceseracciu, 2018

机译：电子皮肤：碳纳米纤维与用于人造电子皮肤的基于石墨烯的可拉伸电容式触摸传感器（Adv。Sci.2 / 2018）
7. Epidermal Electronics: Wireless, Battery-Free Epidermal Electronics for Continuous, Quantitative, Multimodal Thermal Characterization of Skin (Small 47/2018) [O] . Siddharth R. Krishnan, Chun-Ju Su, Zhaoqian Xie, 2018

机译：表皮电子产品：无线，无线电池表皮电子，用于连续，定量，皮肤多峰热表征皮肤（小47/2018）

Multilayer Graphene Epidermal Electronic Skin

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