Recently,
the health problems faced by sedentary workers have received
increasing attention. In this study, a pressure sensor based on a
poly(dimethylsiloxane) (PDMS)/carboxylated chitosan (CCS)/carboxylated
multiwalled carbon nanotube (cMWCNT) sponge was prepared to realize
a portable, sensitive, comfortable, and noninvasive healthcare monitoring
system for sedentary workers. The proposed piezoresistive pressure
sensor exhibited exceptional sensing performances with high sensitivity
(147.74 kPa–1), an ultrawide detection range (22
Pa to 1.42 MPa), and reliable stability (over 3000 cycles). Furthermore,
the obtained sensor displayed superior capability in detecting various
human motion signals. Based on the 4 × 4 sensing array and multilayer
perceptron (MLP) algorithm model, a smart cushion was developed to
recognize five types of sitting postures and supply timely reminders
to sedentary workers. The piezoresistive sponge pressure sensor proposed
in this study reveals promising potential in the fields of wearable
electronics, healthcare monitoring, and human–machine interface
applications.