In this interview, Professor John Rogers talks to News-Medical Life Sciences about his research and work in developing biocompatible electronics and microfluidic systems with skin-like properties.

In a new study published in Emergent Materials, researchers show how microfluidic systems integrated with quantum dot-based affinity biosensors can serve as a valuable platform to rapidly and ...

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; ...

Stephen Quake, a bioengineer and applied physicist at Stanford University, has always been interested in the interface between physics and biology. During his work at the California Institute of ...

Recent advances in materials, mechanics, and manufacturing establish the foundations for high-performance classes of microfluidic lab-on-a-chip technologies that have physical properties matched to ...

SAN JOSE, Calif., Dec. 15, 2025 (GLOBE NEWSWIRE) -- Posifa Technologies today announced the availability of new models in its PLF2000 Series of MEMS liquid flow sensors, expanding designers’ options ...

EVANSTON, Ill. -- Microfluidic systems have the power to revolutionize medicine, energy, electronics and even space exploration. But the sheer size of the external equipment required for controlling ...

(Nanowerk Spotlight) The control of fluids at microscopic scales is fundamental to numerous technologies, from medical diagnostics to water purification. Traditionally, moving small volumes of liquid ...

Researchers have discovered how to pre-program microfluidic systems in a way that controls how fluids flow and mix throughout the micropipes. The result? A step toward smartly designed microfluidic ...