| Literature DB >> 28636323 |
Shanbiao Liu1, Xing Wu1, Dongdong Zhang1, Congwei Guo1, Peng Wang2, Weida Hu2, Xinming Li3, Xiaofeng Zhou4, Hejun Xu1, Chen Luo1, Jian Zhang1, Junhao Chu1.
Abstract
Mechanical flexible electronic skin has been focused on sensing various physical parameters, such as pressure and temperature. The studies of material design and array-accessible devices are the building blocks of strain sensors for subtle pressure sensing. Here, we report a new and facile preparation of a graphene hybrid structure with an ultrafast dynamic pressure response. Graphene oxide nanosheets are used as a surfactant to prevent graphene restacking in aqueous solution. This graphene hybrid structure exhibits a frequency-independent pressure resistive sensing property. Exceeding natural skin, such pressure sensors, can provide transient responses from static up to 10 000 Hz dynamic frequencies. Integrated by the controlling system, the array-accessible sensors can manipulate a robot arm and self-rectify the temperature of a heating blanket. This may pave a path toward the future application of graphene-based wearable electronics.Entities:
Keywords: dynamic response; electronic devices; graphene; pressure sensor; wearable electronics
Year: 2017 PMID: 28636323 DOI: 10.1021/acsami.7b07311
Source DB: PubMed Journal: ACS Appl Mater Interfaces ISSN: 1944-8244 Impact factor: 9.229