Issue 38, 2024

A flexible capacitive pressure sensor with a hybrid porous PDMS/SA hydrogel structure for touch/pain detection

Abstract

Exploring highly sensitive flexible electronic skins (e-skins) that can mimic the tactile and pain perception of human skin is an important prerequisite for achieving biomimetic robots and intelligent prosthetics. However, it is still difficult to realize both touch and pain sensing using a single pressure sensor. Herein, a novel flexible capacitive pressure sensor that can distinguish noxious pressure stimuli is proposed for detecting touch and pain, which is composed of a porous polydimethylsiloxane (PDMS) skeleton and a sodium alginate (SA) hydrogel core. The sensor employs two different working mechanisms depending on the range of external pressure, determining the mechanism of operation for transducing the sense of touch or pain. Such a unique structural design plays a crucial role in enhancing pain perception, leading to maximum sensitivity (14.25 kPa−1) in a large pressure regime (up to 400 kPa) and an adjustable pressure threshold. Moreover, the sensor also exhibits a fast response (45 ms) and recovery speed (70 ms), ensuring a sufficiently fast response to noxious pressure stimuli. Finally, we demonstrate the capabilities of a robotic hand based on the pressure sensor for precisely detecting both touch and pain, which shows great promise in developing intelligent robots and prosthetic limbs to prevent possible damage under external noxious stimuli.

Graphical abstract: A flexible capacitive pressure sensor with a hybrid porous PDMS/SA hydrogel structure for touch/pain detection

Supplementary files

Article information

Article type
Paper
Submitted
30 Apr 2024
Accepted
23 Aug 2024
First published
26 Aug 2024

Nanoscale, 2024,16, 17926-17933

A flexible capacitive pressure sensor with a hybrid porous PDMS/SA hydrogel structure for touch/pain detection

H. Huang, X. Ran, S. Wan, Y. Wang and H. Bi, Nanoscale, 2024, 16, 17926 DOI: 10.1039/D4NR01874E

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