Ti3C2Tx MXene-Based Flexible Piezoresistive Physical Sensors
MXenes have received increasing attention due to their two-dimensional layered structure,
high conductivity, hydrophilicity, and large specific surface area. Because of these distinctive …
high conductivity, hydrophilicity, and large specific surface area. Because of these distinctive …
Recent advances in flexible pressure sensors based on MXene materials
R Qin, J Nong, K Wang, Y Liu, S Zhou, M Hu… - Advanced …, 2024 - Wiley Online Library
In the past decade, with the rapid development of wearable electronics, medical health
monitoring, the Internet of Things, and flexible intelligent robots, flexible pressure sensors …
monitoring, the Internet of Things, and flexible intelligent robots, flexible pressure sensors …
Bioinspired MXene‐based piezoresistive sensor with two‐stage enhancement for motion capture
Structured piezoresistive membranes are compelling building blocks for wearable
bioelectronics. However, the poor structural compressibility of conventional microstructures …
bioelectronics. However, the poor structural compressibility of conventional microstructures …
Siloxene/PVDF composite nanofibrous membrane for high‐performance triboelectric nanogenerator and self‐powered static and dynamic pressure sensing …
Polymer nanofibers are widely adopted in energy harvesting and pressure sensing
applications owing to the large contact area and inherent compressibility. Herein, a high …
applications owing to the large contact area and inherent compressibility. Herein, a high …
Waterproof Flexible Pressure Sensors Based on Electrostatic Self-Assembled MXene/NH2-CNTs for Motion Monitoring and Electronic Skin
Z Xu, D Zhang, Z Li, C Du, Y Yang… - … Applied Materials & …, 2023 - ACS Publications
Flexible wearable sensors to monitor human movement and for electronic skins must exhibit
high sensitivity, a wide detection range, and waterproof characteristics. This work reports a …
high sensitivity, a wide detection range, and waterproof characteristics. This work reports a …
Highly compressible and thermal insulative conductive MXene/PEDOT: PSS@ melamine foam for promising wearable piezoresistive sensor
With the rapid development of intelligent wearable electronic devices, highly compressible
porous piezoresistive sensors are in imperative demand. However, the robustness of …
porous piezoresistive sensors are in imperative demand. However, the robustness of …
Self-powered force sensors for multidimensional tactile sensing
A tactile sensor is the centerpiece in human–machine interfaces, enabling robotics or
prosthetics to manipulate objects dexterously. Specifically, it is crucial to endow the sensor …
prosthetics to manipulate objects dexterously. Specifically, it is crucial to endow the sensor …
All-nanofiber network structure for ultrasensitive piezoresistive pressure sensors
Y Zhou, L Zhao, W Tao, T Wang, P Sun… - … Applied Materials & …, 2022 - ACS Publications
Sensing materials with fiber structures are excellent candidates for the fabrication of flexible
pressure sensors due to their large specific surface area and abundant contact points. Here …
pressure sensors due to their large specific surface area and abundant contact points. Here …
Ultra-broad linear range and sensitive flexible piezoresistive sensor using reversed lattice structure for wearable electronics
Flexible pressure sensors have attracted significant attention owing to their broad
applicability in wearable electronics and human–machine interfaces. However, it is still …
applicability in wearable electronics and human–machine interfaces. However, it is still …
Wearable, ultrathin and breathable tactile sensors with an integrated all-nanofiber network structure for highly sensitive and reliable motion monitoring
Wearable tactile sensors are under high pursuit in healthcare monitoring. However, most of
previous sensors were assembled by non-binding multilayers and built on airtight …
previous sensors were assembled by non-binding multilayers and built on airtight …