Portable Impedance-Sensing Device for Microorganism Characterization in the Field

Abstract: A variety of biosensors have been proposed to quickly detect and measure the properties of individual microorganisms among heterogeneous populations, but challenges related to cost, portability, stability, sensitivity, and power consumption limit their applicability. This study proposes a portable microfluidic device based on impedance flow-cytometry and electrical impedance spectroscopy that can detect and quantify the size of microparticles larger than 45 μm, such as algae and microplastics. The system is lo… Show more

“…To fill this gap, we present here a low-cost portable impedance biosensor which improves the authors previous sensor design 38,39 and concepts from printed circuit board integrated directly in a microfluidic device 40 . The presented device can autonomously monitor the impedance of large microorganisms at a high throughput directly in their own natural habitats without using any harmful chemicals, and determines their characteristics based on their impedance profile using EIS and IFC.…”

Portable impedance-sensing device for microorganism characterization in the field

“…To fill this gap, we present here a low-cost portable impedance biosensor which improves the authors previous sensor design 38,39 and concepts from printed circuit board integrated directly in a microfluidic device 40 . The presented device can autonomously monitor the impedance of large microorganisms at a high throughput directly in their own natural habitats without using any harmful chemicals, and determines their characteristics based on their impedance profile using EIS and IFC.…”

Portable impedance-sensing device for microorganism characterization in the field