Issue 8, 2021

An ultra-broad-range pressure sensor based on a gradient stiffness design

Abstract

The question of how to make artificial intelligence robots perceive the power of “light as a feather” and “heavy as a mountain” at the same time has always been a goal that people are striving to achieve. However, pressure sensors, the key components of electronic equipment, are often unable to incorporate high sensitivity and wide range performance. Here, we proposed a “gradient stiffness design” strategy to prepare a kind of carbon nanotube sponge with a stiffness difference of up to 254 times between different layers, but still maintaining an integral conductive network without delamination. This gradient stiffness structure sponge shows prominent sensing properties with ultra-broad range (from 0.0022 MPa to 5.47 MPa) and high sensitivity. The low stiffness layer can detect low stress (0.0022 MPa) with high sensitivity of 0.765 MPa−1, and the high stiffness layer can greatly extend the sensing range to an unprecedentedly high value (5.47 MPa). It can concisely detect various motions with different stress, from slight clamping of fragile fries by the robot fingers to heavily stomping motions by a 90 kg person. Moreover, a series of human movements from small-scale to large-scale can be also monitored, revealing the great potential of this gradient stiffness structure in future sensing research.

Graphical abstract: An ultra-broad-range pressure sensor based on a gradient stiffness design

Supplementary files

Article information

Article type
Communication
Submitted
03 Mar 2021
Accepted
08 Jun 2021
First published
08 Jun 2021

Mater. Horiz., 2021,8, 2260-2272

An ultra-broad-range pressure sensor based on a gradient stiffness design

F. Xue, H. Zheng, Q. Peng, Y. Hu, X. Zhao, L. Xu, P. Li, Y. Zhu, Z. Liu and X. He, Mater. Horiz., 2021, 8, 2260 DOI: 10.1039/D1MH00384D

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