Litcius/Paper detail

Pushing detectability and sensitivity for subtle force to new limits with shrinkable nanochannel structured aerogel

Xinlei Shi, Xiangqian Fan, YinBo Zhu, Yang Liu, Peiqi Wu, Renhui Jiang, Bao Wu, HengAn Wu, Zheng He, Jianbo Wang, Xinyi Ji, Yongsheng Chen, Jiajie Liang

2022Nature Communications185 citationsDOIOpen Access PDF

Abstract

Abstract There is an urgent need for developing electromechanical sensor with both ultralow detection limits and ultrahigh sensitivity to promote the progress of intelligent technology. Here we propose a strategy for fabricating a soft polysiloxane crosslinked MXene aerogel with multilevel nanochannels inside its cellular walls for ultrasensitive pressure detection. The easily shrinkable nanochannels and optimized material synergism endow the piezoresistive aerogel with an ultralow Young’s modulus (140 Pa), numerous variable conductive pathways, and mechanical robustness. This aerogel can detect extremely subtle pressure signals of 0.0063 Pa, deliver a high pressure sensitivity over 1900 kPa −1 , and exhibit extraordinarily sensing robustness. These sensing properties make the MXene aerogel feasible for monitoring ultra-weak force signals arising from a human’s deep-lying internal jugular venous pulses in a non-invasive manner, detecting the dynamic impacts associated with the landing and take-off of a mosquito, and performing static pressure mapping of a hair.

Topics & Concepts

AerogelPiezoresistive effectRobustness (evolution)Materials scienceNanotechnologySensitivity (control systems)Electrical conductorComputer scienceOptoelectronicsElectronic engineeringComposite materialChemistryEngineeringBiochemistryGeneAdvanced Sensor and Energy Harvesting MaterialsGas Sensing Nanomaterials and SensorsPolydiacetylene-based materials and applications