Microfluidic devices use tiny spaces to manipulate very small quantities of liquids and gasses by taking advantage of the properties they exhibit at the microscale. They have demonstrated usefulness ...

(Nanowerk News) Surface Acoustic Wave (SAW) technologies, known for their high precision and rapid actuation, are essential to microfluidics and affect a broad spectrum of research areas. However, ...

(Nanowerk Spotlight) For decades, microfluidics has held promise as a revolutionary technology, yet widespread adoption outside research labs has remained elusive. Microfluidic devices enable precise ...

The microhelices, due to their unique spiral spatial structure, can achieve many functions similar to micromotors. Therefore, developing microhelices with diverse structures and functions has become a ...

SAW technologies have a wide range of applications in research and are crucial to microfluidics because of their high accuracy and quick actuation. However, conventional fabrication techniques are ...

A viable microfluidic device for “lab-on-a-chip” applications has been fabricated by means of 3D printing by researchers at Brigham Young University (BYU; Provo, UT). It is reportedly the first ...

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 ...

Devices with intricate interlacing channels, the width of a human hair, that move minuscule amounts of liquids, and can be used to diagnose and treat complex diseases, can now be made using a ...