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Traditionally, electromagnetic detection of biological cells was conducted at either radio or microwave frequencies, which was sensitive to either cellular or subcellular properties, respectively. This paper reports for the first time a single sweep from megahertz to gigahertz frequencies so that cell viability, membrane capacitance, cytoplasm resistance, and cytoplasm capacitance could be determined...
In the last decades, the advances in the micro and nano fabrication techniques have led to the development of microdevices that improved the possibility of analysis at cell level. These devices can be used in different applications (e.g., cell detection and identification, manipulation, cell treatments). The requisites, that are necessary to achieve, are different for various applications and represent...
For the first time, broadband (0.5–20 GHz) electrical detection of live bacteria was successfully demonstrated on E. coli, despite their being small and adherent compared to mammalian cells such as Jurkat T-lymphoma human cells that had been detected by using a similar coplanar waveguide in conjunction with a microfluidic channel. Critical to the success was in suppressing the background drift of...
Based on a homemade probe station on top of an inverted microscope for simultaneous microwave measurement and visual validation, broadband detection of live Jurkat cells was successfully extended from 2–3.5 GHz to 0.5–20 GHz with comparable sensitivity and reproducibility. With a carefully optimized coplanar waveguide, closely spaced microwave probes, and frequent calibrations, reference planes were...
A novel broadband microchamber for electrical detection of live and dead biological cells was designed, fabricated and tested. The microchamber was formed between a gold coplanar waveguide fabricated on a quartz slide and the microfluidic channels fabricated in a polydimethylsiloxane cover. The coplanar waveguide allowed broadband impedance matching and efficient cell trapping. The microfluidic channels...
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