A new microfluidic technology that leverages immune cell behavior is set to transform cancer monitoring, thanks to researchers at UNIST. Led by Professor Joo Hun Kang in the Department of Biomedical ...

The use of space environment to carry out life science research is of great significance to issues affecting the occurrence and development of life on earth by space flight and space environment; ...

In a significant advancement for lab-on-chip technology, IBEC researchers in the frame of the European project BLOC, have demonstrated the first integration of a benchtop nuclear magnetic resonance ...

Modern biology is driven by technology, explains Philip J. Lee, Ph.D., co-founder, president, and director of research at CellASIC a five-year-old company that develops microfluidic technologies for ...

Watching proteins move as they drive the chemical reactions that sustain life is one of the grand challenges of modern biology. In recent years, X-ray free-electron lasers, or XFELs, have begun to ...

Schematic of a water-oil immiscible alternative microfluidic experiment conducted under constant differential pressure. The microfluidic chip used is a uniform type with a constant pore structure and ...

Understanding how cells are organized and how their molecular components interact in a coordinated and cooperative manner is a central goal of modern life sciences. To answer these questions, ...

Controlled light masking and tuned platinum catalysts make it possible to volumetrically 3D print silicone devices with open channels, eliminating molds and reducing fabrication time to minutes.

The Microfluidics Market has emerged as one of the most transformative segments within modern biotechnology, diagnostics, and pharmaceutical research. Microfluidics refers to the technology that ...