The chapter explores the application of microfluidic devices in multiple applications (detecting bacteria, biomarkers, and environmental pollutants) and their integration with detection systems (such ...

3D Printing Revolution: From Microelectronics to Microfluidics.This image illustrates the transformative role of 3D printing technology in the fabrication of microelectronic and microfluidic devices.

Microlight3D, a specialist in high-resolution 2D and 3D micro-scale printing systems for scientific and industrial use, has ...

Researchers show how 3D printing enables sub-micron precision in microelectronics and microfluidics, offering a flexible alternative to traditional ... These hurdles underscore the urgent need for ...

From Microelectronics to Microfluidics.This image illustrates the transformative role of 3D printing technology in the fabrication of microelectronic and microfluidic devices. It highlights the ...

Microfluidics is the engineering or use of devices that apply fluid flow to channels smaller than 1 millimetre in at least one dimension. Microfluidic devices can reduce reagent consumption ...

Attribution (BY): Credit must be given to the creator. In an effort to innovate on-site sensing platforms for a wide range of analytes in different matrices, microfluidic paper-based devices (μPADs) ...

When actuated using magnetic fields, these artificial cilia can be programmed to perform controlled, coordinated movements without any wiring or tubing, opening up new possibilities for compact, ...

These values exceed those achieved by many devices using conventional fabrication processes involving SiO₂ substrates and gold electrodes. The devices required no polymer resists during lithography, ...