Studies of biological and artificial membrane systems, such as niosomes, currently rely on the use of fluorescent tags, which can influence the system under investigation. For this reason, the development of label-free, non-invasive detection techniques is of great interest. We demonstrate an open volume label-free millimeter-wave sensing platform based on a coplanar waveguide, developed for identification and characterization of niosome constituents. A design based on a λ/2-line resonator was used and on-wafer measurements of transmission and reflection parameters were performed up to 110 GHz. Our sensor was able to clearly distinguish between common niosome constituents, non-ionic surfactants Tween 20 and Span 80, measuring a resonance sh...
Real-time monitoring of liquids and their contents has paramount importance in numerous fields, incl...
An integrated biosensor is a miniaturized device which performs biochemical analysis normally handle...
In this article we propose a novel label-free chemical/biochemical sensing device based on a wavegui...
Studies of biological and artificial membrane systems, such as niosomes, currently rely on the use o...
We demonstrate a millimeter-wave sensing method based on a coplanar waveguide for biological membran...
We have studied several sensor concepts for biomedical applications operating in the millimetre-wave...
A variety of dielectric resonator techniques from low GHz frequencies towards 100 GHz has been inves...
In this paper, we present a Millimeter-wave BioMEMS (Biological MicroElectro-Mechanical System) dedi...
A millimeter-wave sensor based on a CPW line has been designed and fabricated as a first prototype f...
© 2018 IEEE. Broadband dielectric spectroscopy measurements of biological materials within RF/microw...
This paper reports on a miniaturized lab-on-a-waveguide liquid-mixture sensor, achieving highly-accu...
International audienceThis paper reports the design, simulation and experimental validation of an ac...
International audienceThis paper reports a new instrumented microdevice which allows the characteriz...
We present an approach for identification and concentration determination of liquids of pico to nano...
Studies of biological solutions require high measurement accuracy, the ability to detect low changes...
Real-time monitoring of liquids and their contents has paramount importance in numerous fields, incl...
An integrated biosensor is a miniaturized device which performs biochemical analysis normally handle...
In this article we propose a novel label-free chemical/biochemical sensing device based on a wavegui...
Studies of biological and artificial membrane systems, such as niosomes, currently rely on the use o...
We demonstrate a millimeter-wave sensing method based on a coplanar waveguide for biological membran...
We have studied several sensor concepts for biomedical applications operating in the millimetre-wave...
A variety of dielectric resonator techniques from low GHz frequencies towards 100 GHz has been inves...
In this paper, we present a Millimeter-wave BioMEMS (Biological MicroElectro-Mechanical System) dedi...
A millimeter-wave sensor based on a CPW line has been designed and fabricated as a first prototype f...
© 2018 IEEE. Broadband dielectric spectroscopy measurements of biological materials within RF/microw...
This paper reports on a miniaturized lab-on-a-waveguide liquid-mixture sensor, achieving highly-accu...
International audienceThis paper reports the design, simulation and experimental validation of an ac...
International audienceThis paper reports a new instrumented microdevice which allows the characteriz...
We present an approach for identification and concentration determination of liquids of pico to nano...
Studies of biological solutions require high measurement accuracy, the ability to detect low changes...
Real-time monitoring of liquids and their contents has paramount importance in numerous fields, incl...
An integrated biosensor is a miniaturized device which performs biochemical analysis normally handle...
In this article we propose a novel label-free chemical/biochemical sensing device based on a wavegui...