A Stretchable and Transparent Nanocomposite Nanogenerator for Self-Powered Physiological Monitoring

纳米发生器 材料科学 摩擦电效应 纳米复合材料 压电 透明度(行为) 能量收集 光电子学 纳米技术 可穿戴计算机 可穿戴技术 电压 可伸缩电子设备 聚二甲基硅氧烷 功率(物理) 电气工程 复合材料 计算机科学 数码产品 嵌入式系统 工程类 物理 量子力学 计算机安全
作者
Xiaoliang Chen,Kaushik Parida,Jiangxin Wang,Jiaqing Xiong,Meng‐Fang Lin,Jinyou Shao,Pooi See Lee
出处
期刊:ACS Applied Materials & Interfaces [American Chemical Society]
卷期号:9 (48): 42200-42209 被引量:143
标识
DOI:10.1021/acsami.7b13767
摘要

Smart sensing electronic devices with good transparency, high stretchability, and self-powered sensing characteristics are essential in wearable health monitoring systems. This paper innovatively proposes a stretchable nanocomposite nanogenerator with good transparency that can be conformally attached to the human body to harvest biomechanical energy and monitor physiological signals. The work reports an innovative device that uses sprayed silver nanowires as transparent electrodes and sandwiches a nanocomposite of piezoelectric BaTiO3 and polydimethylsiloxane as the sensing layer, which exhibits good transparency and mechanical transformability with stretchable, foldable, and twistable properties. The highly flexible nanogenerator affords a good input-output linearity under the vertical force and the sensing ability to detect lateral stretching deformation up to 60% strain under piezoelectric mechanisms. Furthermore, the proposed device can effectively harvest touch energies from the human body as a single-electrode triboelectric nanogenerator. Under periodic contact and separation, a maximum output voltage of 105 V, a current density of 6.5 μA/cm2, and a power density of 102 μW/cm2 can be achieved, exhibiting a good power generation performance. Owing to the high conformability and excellent sensitivity of the nanogenerator, it can also act as a self-powered wearable sensor attached to different parts of the human body for real-time monitoring of the human physiological signals such as eye blinking, pronunciation, arm movement, and radial artery pulse. The designed nanocomposite nanogenerator shows great potential for use in self-powered e-skins and healthcare monitoring systems.

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