Add to ORKGWe present a miniaturized CMOS impedance detector integrated within a dielectrophoretic microfluidic device for label-free separation, enabling the sorting and counting of particle suspensions in a fully electrical manner. This approach makes possible a truly portable system for cell sorting and analysis. Towards this end, the design of ad hoc coplanar electrodes for impedance sensing, supported by numerical simulations, is illustrated. The validation of the system with 10m polystyrene beads is reported. A USB-controlled single-chip lock-in demodulator allows high-throughput counting of resistive peaks of 1% amplitude, with a signal-to-noise ratio >10 and with a time resolution of 200s
Bacteria concentration and detection is time-consuming in regular microbiology procedures aimed to f...
Bacteria concentration and detection is time-consuming in regular microbiology procedures aimed to f...
In this study, we introduce novel method of flow cytometry for cell detection based on impedance mea...
We present a miniaturized CMOS impedance detector integrated within a dielectrophoretic microfluidic...
The Dielectrophoresis force delivers an effective and appropriate way to control particles, especial...
Lab-on-a-chip systems have been attracting a growing attention for the perspective of miniaturizatio...
In this paper we demonstrate the implementation of a micro-scaled integrated system with the aim to ...
A dual-channel credit-card-sized impedance cell counter featuring a throughput of 2000 cell/s and de...
Flow cytometry is an essential tool in biology and medicine with applications in immunodeficiency di...
A microarray biosensor that measures the electrical impedance of cell suspensions is presented. Sing...
A new cytological tool, based on the microCoulter particle counter (microCPC) principle, aimed at di...
We present a portable system for personalized blood cell counting consisting of a microfluidic imped...
Electrical impedance spectroscopy is a non-invasive and label free technique that allows for rapid c...
A microfluidic cell impedance measurement device is presented in this article. The design is simple ...
In this paper we demonstrate the implementation of a micro-scaled integrated system with the aim to ...
Bacteria concentration and detection is time-consuming in regular microbiology procedures aimed to f...
Bacteria concentration and detection is time-consuming in regular microbiology procedures aimed to f...
In this study, we introduce novel method of flow cytometry for cell detection based on impedance mea...
We present a miniaturized CMOS impedance detector integrated within a dielectrophoretic microfluidic...
The Dielectrophoresis force delivers an effective and appropriate way to control particles, especial...
Lab-on-a-chip systems have been attracting a growing attention for the perspective of miniaturizatio...
In this paper we demonstrate the implementation of a micro-scaled integrated system with the aim to ...
A dual-channel credit-card-sized impedance cell counter featuring a throughput of 2000 cell/s and de...
Flow cytometry is an essential tool in biology and medicine with applications in immunodeficiency di...
A microarray biosensor that measures the electrical impedance of cell suspensions is presented. Sing...
A new cytological tool, based on the microCoulter particle counter (microCPC) principle, aimed at di...
We present a portable system for personalized blood cell counting consisting of a microfluidic imped...
Electrical impedance spectroscopy is a non-invasive and label free technique that allows for rapid c...
A microfluidic cell impedance measurement device is presented in this article. The design is simple ...
In this paper we demonstrate the implementation of a micro-scaled integrated system with the aim to ...
Bacteria concentration and detection is time-consuming in regular microbiology procedures aimed to f...
Bacteria concentration and detection is time-consuming in regular microbiology procedures aimed to f...
In this study, we introduce novel method of flow cytometry for cell detection based on impedance mea...