The microfluidics market presents significant opportunities in laboratory-on-a-chip research, miniaturized diagnostics, pharmaceutical R&D, and personalized medicine. Growth drivers include ...

MIT researchers developed a fabrication process to produce self-heating microfluidic devices in one step using a multi-material 3D printer. Pictured is an example of one of the devices. MIT ...

Researchers have developed a groundbreaking, freely available droplet microfluidic component library, which promises to transform the way microfluidic devices are created. This innovation, based on ...

A fabrication process can produce self-heating microfluidic devices in one step using a multimaterial 3D printer. These devices, which can be made rapidly and cheaply in large numbers, could help ...

A cheap one-step process produces miniature chemical reactors that could be used to detect diseases or analyze substances. MIT researchers have used 3D printing to produce self-heating microfluidic ...

Researchers have unveiled a microfluidic device that significantly improves the separation of tumor cells and clusters from malignant effusions. This novel technology promises to advance the diagnosis ...

Old-school electrical engineers—and plenty of older research scientists, even biologists like me—remember the days of building circuits from parts: capacitors, resistors, and transistors. The creation ...

A new microfluidic device developed by scientists in Switzerland can detect the SARS-CoV-2 virus with high accuracy and speed, using a unique DNA/RNA duplex technology. The device could prove to be a ...

The microfluidics market is driven by rising demand for rapid diagnostics, growing adoption of lab-on-a-chip technologies, and advancements in microfabrication. Expanding applications in drug ...

The beverage industry continually seeks innovative methods to ensure product quality, safety, and compliance with global health standards. Microfluidic devices have emerged as a pivotal technology in ...