Frictionless multiphasic interface for near-ideal aero-elastic pressure sensing
Conventional pressure sensors rely on solid sensing elements. Instead, inspired by the air
entrapment phenomenon on the surfaces of submerged lotus leaves, we designed a …
entrapment phenomenon on the surfaces of submerged lotus leaves, we designed a …
Pressure measurement methods in microchannels: advances and applications
F Shen, M Ai, Z Li, X Lu, Y Pang, Z Liu - Microfluidics and Nanofluidics, 2021 - Springer
With the continuous development of the lab-on-a-chip studies, pressure measurements in
microchannels have become the guarantee of the precise control and regulation of trace …
microchannels have become the guarantee of the precise control and regulation of trace …
Skin-interfaced soft microfluidic systems with modular and reusable electronics for in situ capacitive sensing of sweat loss, rate and conductivity
Important insights into human health can be obtained through the non-invasive collection
and detailed analysis of sweat, a biofluid that contains a wide range of essential biomarkers …
and detailed analysis of sweat, a biofluid that contains a wide range of essential biomarkers …
High-range noise immune supersensitive graphene-electrolyte capacitive strain sensor for biomedical applications
This paper presents development and performance assessment of an innovative and a
highly potent graphene-electrolyte capacitive sensor (GECS) based on the supercapacitor …
highly potent graphene-electrolyte capacitive sensor (GECS) based on the supercapacitor …
based supercapacitive mechanical sensors
Paper has been pursued as an interesting substrate material for sensors in applications
such as microfluidics, bio-sensing of analytes and printed microelectronics. It offers …
such as microfluidics, bio-sensing of analytes and printed microelectronics. It offers …
A low-profile supercapacitor-based normal and shear force sensor
Y Zhang, AS Sezen, R Rajamani - IEEE Sensors Journal, 2020 - ieeexplore.ieee.org
This paper focuses on the development of a thin normal-shear force sensor based on the
use of a supercapacitive sensing mechanism. The sensor has a quad structure with four …
use of a supercapacitive sensing mechanism. The sensor has a quad structure with four …
Flow determination via nanoparticle strain sensors for easy Lab on Chip integration
With the advancement of microfluidic and Lab on Chip systems, new challenges arise
regarding efficient system monitoring as well as the detailed tracking of fluids within the …
regarding efficient system monitoring as well as the detailed tracking of fluids within the …
Research on nonlinear compensation scheme of yarn tension sensor using SAW devices based on SSA–SVR model
S Liu, S Duan, R Xing, W Lu - Measurement Science and …, 2023 - iopscience.iop.org
The detection accuracy of a yarn tension sensor using surface acoustic wave devices has
become increasingly important. We investigate a nonlinear compensation scheme based on …
become increasingly important. We investigate a nonlinear compensation scheme based on …
Temperature compensation of the SAW yarn tension sensor
W Lu, Y Feng, C Zhu, J Zheng - Ultrasonics, 2017 - Elsevier
The objective of this research was to investigate the possibility of the temperature
compensation for the surface acoustic wave (SAW) yarn tension sensor. The motivation for …
compensation for the surface acoustic wave (SAW) yarn tension sensor. The motivation for …
Novel supercapacitor-based force sensor insensitive to parasitic noise
Y Zhang, R Rajamani, S Sezen - IEEE sensors letters, 2017 - ieeexplore.ieee.org
Traditional capacitive sensors suffer from significant parasitic noise when used in liquid
environments or inside the human body. The parasitic noise overwhelms the force response …
environments or inside the human body. The parasitic noise overwhelms the force response …