Rapid prototyping of noncontact microwave microfluidic devices for sensing applications

Abstract: Microfluidics is an innovative technological platform with a vast potential to streamline processes in biology, chemistry, and biomedical fields. Microfluidic integrated biosensors attract much attention due to extreme miniaturization, low sample consumption, and increased homogeneity in mixing conditions, leading to enhanced sensitivity. Nowadays, many researchers focus on inexpensive and flexible laser production of polymer-based microfluidic devices for sensing applications due to their ease of production a… Show more

“…Microwave-microfluidic devices (MMDs) represent a class of integrated instruments for processing and analysing liquid samples and soft matter [1][2][3][4] . Droplet microfluidics has significantly advanced in the last three decades, bringing capabilities of precision liquid handling and high-throughput experimentation using droplet-based materials 5,6 .…”

3D-printing fabrication of microwave-microfluidic device for droplets network formation and characterisation

“…Microwave-microfluidic devices (MMDs) represent a class of integrated instruments for processing and analysing liquid samples and soft matter [1][2][3][4] . Droplet microfluidics has significantly advanced in the last three decades, bringing capabilities of precision liquid handling and high-throughput experimentation using droplet-based materials 5,6 .…”

3D-printing fabrication of microwave-microfluidic device for droplets network formation and characterisation

X-ray computed tomography for predictive quality assessment, 3D visualisation of micro-injection mouldings and soft-tool deformation

Ultrafast laser micromanufacturing of microfluidic devices