Fluid–structure interaction in microfluidics examines the coupled dynamics between fluid flow and the deformation of compliant structures at the microscale. This field investigates how fluid forces ...

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 ...

(Nanowerk News) The transition from traditional 2D to 3D microfluidic structures is a significant advancement in microfluidics, offering benefits in scientific and industrial applications. These 3D ...

Addressing these challenges, an international team of researchers, led by Dr. Da Som Yang, Assistant Professor in the School of Mechanical Engineering at Chung-Ang University, has recently explored ...

The chips that datacenters use to run the latest AI breakthroughs generate much more heat than previous generations of silicon. Anybody whose phone or laptop has overheated knows that electronics ...

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 ...

Eccrine sweat is a water-like fluid secreted by eccrine sweat glands that comprises various kinds of biochemical components such as electrolytes, metabolites, organic molecules, and drugs. The ...

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