Acoustofluidics offers advantages over other microfluidics methods, such as low cost, simplified designs, and remote droplet manipulation. These are especially relevant for applications like ...

Researchers at the University of Glasgow have developed a new diagnostic platform for identifying microbial infections in as ...

Organoid-on-chip technology merges patient-derived organoids with microfluidic engineering to recreate human physiology and predict drug responses with high precision. This innovation is reshaping ...

Understanding the nature of malignant effusions, teeming with tumor cells and clusters, is critical in comprehending the breadth of cancer's impact. The significant role of tumor clusters, with their ...

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 ...

Imagine 3D-printed microfluidic devices that can monitor your health in real-time, or flexible sensors seamlessly integrated into your clothing for continuous physiological tracking. In the realm of ...

Here’s what a pregnancy looks like inside a microfluidic chip. At first glance, it looks like the start of a human pregnancy: A ball-shaped embryo presses gently into the receptive lining of the ...

Layered drug nanoparticles can now be produced efficiently and at scale using a microfluidic method that eliminates purification and improves consistency. Since its adaptation to nanoscale materials, ...

(Nanowerk Spotlight) As electronics become smaller, lighter, and more integrated into clothing, sensors, and mobile systems, the demand for energy storage devices that can operate under flexible, high ...

KAIST researchers developed a modular organ-on-a-chip that reproduces rhabdomyolysis, revealing how drug-induced muscle ...