We demonstrate a millimeter-wave sensing method based on a coplanar waveguide for biological membrane studies in an open-volume fluidic arrangement. On-wafer measurements of scattering parameters were performed up to 110 GHz. The sensor shows the ability to distinguish the addition of 20% cholesterol in artificial biological membranes, which is an important component influencing the stability and fluidity of such systems. This is the first stage in the development of a millimeter-wave sensor for biological model membrane studies
© 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 deals with the development and characterization of label-free micro...
We demonstrate a millimeter-wave sensing method based on a coplanar waveguide for biological membran...
Studies of biological and artificial membrane systems, such as niosomes, currently rely on the use o...
A millimeter-wave sensor based on a CPW line has been designed and fabricated as a first prototype f...
We have studied several sensor concepts for biomedical applications operating in the millimetre-wave...
International audienceThis paper reports the design, simulation and experimental validation of an ac...
An integrated biosensor is a miniaturized device which performs biochemical analysis normally handle...
International audienceA miniaturized sensor operating in Radio Frequency region (RF) is proposed to ...
In bioprocess technology, highly-sensitive robust sensors are required for operation in single use b...
Design and characterization of a miniature microwave dielectric biosensor based on distributed micro...
In this paper, we present a Millimeter-wave BioMEMS (Biological MicroElectro-Mechanical System) dedi...
A variety of dielectric resonator techniques from low GHz frequencies towards 100 GHz has been inves...
International audienceThis paper demonstrates an accurate liquid sensing technique, from 40 MHz to 4...
© 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 deals with the development and characterization of label-free micro...
We demonstrate a millimeter-wave sensing method based on a coplanar waveguide for biological membran...
Studies of biological and artificial membrane systems, such as niosomes, currently rely on the use o...
A millimeter-wave sensor based on a CPW line has been designed and fabricated as a first prototype f...
We have studied several sensor concepts for biomedical applications operating in the millimetre-wave...
International audienceThis paper reports the design, simulation and experimental validation of an ac...
An integrated biosensor is a miniaturized device which performs biochemical analysis normally handle...
International audienceA miniaturized sensor operating in Radio Frequency region (RF) is proposed to ...
In bioprocess technology, highly-sensitive robust sensors are required for operation in single use b...
Design and characterization of a miniature microwave dielectric biosensor based on distributed micro...
In this paper, we present a Millimeter-wave BioMEMS (Biological MicroElectro-Mechanical System) dedi...
A variety of dielectric resonator techniques from low GHz frequencies towards 100 GHz has been inves...
International audienceThis paper demonstrates an accurate liquid sensing technique, from 40 MHz to 4...
© 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 deals with the development and characterization of label-free micro...