Accurate Characterization by Dielectric Spectroscopy up to 25 GHz of Nano-Liter Range Liquid Volume Within a Microfluidic Channel

Abstract: This paper reports the design, simulation and experimental validation of an accurate liquid sensing technique in the nano-liter range. It is suitable for the detection and quantification of very small contents of liquid samples containing biological cells. The biosensor is based on an open-ended interdigitated capacitor (IDC) within a microfluidic channel. The microwave structure including the IDC is patterned in coplanar waveguide technology. The microfluidic channel is 100 µm thick and the IDC covers an area… Show more

“…Sensors as transducers of real‐world information into the digital‐world information play a significant role in IoT to let the IoT record, process, and transfer the information over various networks. In case of microwave sensors, researchers around the world have been developing different designs to be used in different applications, such as: liquid chromatography 1 ; detection and quantification of biological cells inside liquid samples 2 ; cation and anion differentiation of liquids 3 ; ethanol detection via wearable sensors 4 ; human vital sign detection 5 ; liquid mixture concentration characterization 6 ; and so forth. However, inexpensive, highly integrable, and real‐time measurement capabilities are some of the most important features concerning not only microwave sensors but also sensors in general, to establish more effective IoT.…”

Integrated liquid–liquid percentage determination microwave sensor exploiting single‐frequency transmission amplitude measurement technique

“…Sensors as transducers of real‐world information into the digital‐world information play a significant role in IoT to let the IoT record, process, and transfer the information over various networks. In case of microwave sensors, researchers around the world have been developing different designs to be used in different applications, such as: liquid chromatography 1 ; detection and quantification of biological cells inside liquid samples 2 ; cation and anion differentiation of liquids 3 ; ethanol detection via wearable sensors 4 ; human vital sign detection 5 ; liquid mixture concentration characterization 6 ; and so forth. However, inexpensive, highly integrable, and real‐time measurement capabilities are some of the most important features concerning not only microwave sensors but also sensors in general, to establish more effective IoT.…”

Integrated liquid–liquid percentage determination microwave sensor exploiting single‐frequency transmission amplitude measurement technique

“…57 They are based on a two-electrode array designed for high-frequency measurements from radio to microwaves (10 kHz to 10 GHz). They investigate static systems as pure liquids in small volumes 58 or estimate the concentration of cells. 59 Some studies have applied this technology to investigate the dielectric properties of soils and determine their water content.…”

A microfluidic chip for geoelectrical monitoring of critical zone processes

Dielectric Spectroscopy of Liquids by De-Embedding Two-Port Measurements