Microfluidic technology has become increasingly important in many scientific fields, such as regenerative medicine, microelectronics, and environmental science. However, conventional microfabrication ...

Microfluidic technologies are suited for single-use devices that provide sample-to-answer functionality. Fabrication in glass or embossing in plastic is generally not compatible with high-volume ...

Microfluidics has emerged as a pivotal technology for the precise manipulation of fluids within channels of micrometre dimensions. Central to this field is the generation of uniform, discrete droplets ...

Scientists develop new method for ultra-high speed droplet production in microfluidic devices using three-dimensional porous inverse colloidal crystal structures Over the past two decades, ...

Dr. Schertzer is primarily interested in droplet based microfluidic technologies for applications in point of care medical diagnostics, multiphase heat transfer and energy generation. His ...

The microfluidics market is driven by rising demand for rapid diagnostics, growing adoption of lab-on-a-chip technologies, and advancements in microfabrication. Expanding applications in drug ...

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 ...

Imagine visiting the doctor's office for a routine annual checkup. Instead of drawing several vials of blood for analysis by an outside diagnostics lab, the doctor collects a single drop. Using a ...

Researchers have developed a new bio-inspired approach to building complex 3D microfluidic networks by utilizing plant roots and fungal hyphae as molds. The team grew plants and fungi in nanoparticles ...

Glass structure of vasculature built from rye plant (left), and koji Aspergillus oryzae (right). Plants and hyphae-like cavities are formed inside the transparent glass chip. The root hair-like ...