Effect of carbonyl iron powder incorporation on the piezoresistive sensing characteristics of CNT-based polymeric sensor
The electrical and piezoresistive sensing characteristics of polymeric composites
incorporating carbon nanotube (CNT) and carbonyl iron powder (CIP) were investigated in …
incorporating carbon nanotube (CNT) and carbonyl iron powder (CIP) were investigated in …
[HTML][HTML] Piezoresistive sensing in chopped carbon fiber embedded PDMS yarns
Tuning the piezoresistive behavior of conductive polymeric composites requires an in-depth
understanding of the structure-property relationships and deformation mechanisms at the …
understanding of the structure-property relationships and deformation mechanisms at the …
Environmentally friendly flexible strain sensor from waste cotton fabrics and natural rubber latex
X Chen, J An, G Cai, J Zhang, W Chen, X Dong, L Zhu… - Polymers, 2019 - mdpi.com
A green approach was successfully developed to fabricate flexible sensors by utilizing
carbonized waste cotton fabrics in combination with natural rubber latex. Waste cotton …
carbonized waste cotton fabrics in combination with natural rubber latex. Waste cotton …
[HTML][HTML] 3D-printed highly stable flexible strain sensor based on silver-coated-glass fiber-filled conductive silicon rubber
C Zhao, Z Xia, X Wang, J Nie, P Huang, S Zhao - Materials & Design, 2020 - Elsevier
Flexible sensors have been tremendously attractive in wearable electronics, soft robots and
human-machine interaction devices. In this work, conductive silicon rubber (CSR) filled with …
human-machine interaction devices. In this work, conductive silicon rubber (CSR) filled with …
Understanding the dynamic response in ferroelectret nanogenerators to enable self-powered tactile systems and human-controlled micro-robots
Self-powered pressure sensors are critical devices in IoT sensing networks. Continuous
efforts have been made in the community to improve the device performances by optimizing …
efforts have been made in the community to improve the device performances by optimizing …
Stumbling through the research wilderness, standard methods to shine light on electrically conductive nanocomposites for future healthcare monitoring
CS Boland - ACS nano, 2019 - ACS Publications
Electrically conductive nanocomposites are an exciting ever-expanding area of research
that has yielded many versatile technologies for wearable health devices. Acting as strain …
that has yielded many versatile technologies for wearable health devices. Acting as strain …
Comparative study of carbon nanotube composites as capacitive and piezoresistive pressure sensors under varying conditions
Conducting polymer composites consisting of carbon nanotubes (CNTs) as a conductive
filler and polydimethylsiloxane (PDMS) as a polymer matrix were fabricated to investigate …
filler and polydimethylsiloxane (PDMS) as a polymer matrix were fabricated to investigate …
Washable smart threads for strain sensing fabrics
We present washable smart sensing threads for creation of smart wearable fabrics. More
specifically, we report the fabrication of a facile stretchable and washable thread-based …
specifically, we report the fabrication of a facile stretchable and washable thread-based …
A biosensing expedition of nanopore: a review
The fascinating domain of nanoscience presents vast opportunities and challenges for
developing myriad nanometer-scale biosensing systems. The advent of the nanopore and …
developing myriad nanometer-scale biosensing systems. The advent of the nanopore and …
Electrical stability and piezoresistive sensing performance of high strain-range ultra-stretchable CNT-Embedded sensors
Highly flexible and stretchable sensors are becoming increasingly widespread due to their
versatile applicability in human/robot monitoring sensors. Conductive polymeric composites …
versatile applicability in human/robot monitoring sensors. Conductive polymeric composites …