Researchers are continuing to make progress on developing a new synthetic material that behaves like biological muscle, an ...

Researchers developed a microfluidic chip with 3D-printed microstructures that moves droplets precisely, captures cells efficiently, and quickly forms cell spheroids for improved lab-grown tissue ...

Scientists developed a new microfluidic system that can detect subtle chemical fingerprints from bacteria - helping identify even antibiotic-resistant strains. This technology could help physicians ...

A recent article in Small highlights a new method for studying tumor cell interactions and testing anti-metastatic drugs through the development of an Under-oil Open Microfluidic System (UOMS). This ...

A City University of Hong Kong (CityUHK) research team led by Professor Michael Yang Mengsu, Senior Vice-President (Innovation and Enterprise), and Yeung Kin Man Chair Professor of Biomedical Sciences ...

Accurately isolating individual cells from complex biological samples is essential for modern biomedical research, yet existing sorting technologies ...

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 ...

A microfluidic control system in a laboratory manages the flow of fluids in microfluidic devices to perform various tasks, such as mixing, heating, and incubation: Accurate volume sampling, Spatial ...

Dolomite has launched Telos, an innovative system for high throughput droplet, particle, and flow product generation. It benefits a wide range of applications including: DNA, cell and bead ...

Built around Dolomite’s microfluidic pumps, connectors and chips, this easy-to-use system enables rapid and effective mixing of up to 2 reagents of 25μl to 10ml. Using extra smooth pumps to deliver ...