Ultrasensitive and Highly Stable Resistive Pressure Sensors with Biomaterial-Incorporated Interfacial Layers for Wearable Health-Monitoring and Human-Machine Interfaces

被引:93
作者
Chang, Hochan [1 ]
Kim, Sungwoong [1 ]
Jin, Sumin [1 ]
Lee, Seung-Woo [1 ,3 ]
Yang, Gil-Tae [2 ]
Lee, Ki-Young [1 ]
Yi, Hyunjung [1 ]
机构
[1] Korea Inst Sci & Technol, Post Silicon Semicond Inst, Seoul 02792, South Korea
[2] SEED Tech Co, Bucheon 14523, Gyeonggi Do, South Korea
[3] Seoul Natl Univ Sci & Technol, Dept Fine Chem, Seoul 01811, South Korea
关键词
piezoresistivity; biomaterials; carbon nanotubes; health monitoring; human machine interfaces; ELECTRONIC SKIN; CONDUCTIVE NANOMESH; CARBON NANOTUBES; STRAIN SENSORS; TRANSPARENT; PEPTIDES; MATRIX; ARRAYS; TRANSISTORS; RUBBER;
D O I
10.1021/acsami.7b14048
中图分类号
TB3 [工程材料学];
学科分类号
0805 ; 080502 ;
摘要
Flexible piezoresistive sensors have huge potential for health monitoring, human-machine interfaces, prosthetic limbs, and intelligent robotics. A variety of nanomaterials and structural schemes have been proposed for realizing ultrasensitive flexible piezoresistive sensors. However, despite the success of recent efforts, high sensitivity within narrower pressure ranges and/or the challenging adhesion and stability issues still potentially limit their broad applications. Herein, we introduce a biomaterial-based scheme for the development of flexible pressure sensors that are ultrasensitive (resistance change by 5 orders) over a broad pressure range of 0.1-100 kPa, promptly responsive (20 ms), and yet highly stable. We show that employing biomaterial-incorporated conductive networks of single-walled carbon nanotubes as interfacial layers of contact-based resistive pressure sensors significantly enhances piezoresistive response via effective modulation of the interlayer resistance and provides stable interfaces for the pressure sensors. The developed flexible sensor is capable of real-time monitoring of wrist pulse waves under external medium pressure levels and providing pressure profiles applied by a thumb and a forefinger during object manipulation at a low voltage (1 V) and power consumption (<12 mu W). This work provides a new insight into the material candidates and approaches for the development of wearable health-monitoring and human-machine interfaces.
引用
收藏
页码:1067 / 1076
页数:10
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