Researchers at UC Berkeley have built a microfluidic organ-on-a-chip system that compresses roughly 40 years of human aging ...

A tiny microfluidic device can improve cell therapy techniques for spinal cord injury patients. The device can remove a large percentage of stem cells that have not yet fully become spinal cord cells, ...

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 ...

Microfluidic biochips represent a transformative technology that miniaturises laboratory functions onto single chip platforms, revolutionising biochemical assays, point‐of‐care diagnostics, and ...

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 ...

(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, ...

Creating enteric neuro-epithelial co-cultures in a microfluidic device. a Intestinal epithelial cells are located on the luminal lining of the gut. Upon receiving physical or chemical stimuli, ...

Circulating tumor cells (CTCs) refer to cancer cells that have broken off from a primary tumor. These tumor cells can travel through the blood in the circulatory system and lodge themselves in other ...

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 ...

Aerosol jet printing process for surface acoustic wave (SAW) microfluidic devices. a Schematic of the fabrication process and mechanism of the aerosol jet-printed SAW microfluidic devices.