Microfluidics is a relatively newly emerged field based on the combined principles of
physics, chemistry, biology, fluid dynamics, microelectronics, and material science. Various …

Organ-on-A-chip (OoAC) devices are miniaturized, functional, in vitro constructs that aim to
recapitulate the in vivo physiology of an organ using different cell types and extracellular …

Laser has been demonstrated to be a mature and versatile tool that presents great flexibility
and applicability for the precision engineering of a wide range of materials over other …

Conventional manufacturing of glass microfluidic devices is a complex, multi-step process
that involves a combination of different fabrication techniques, typically photolithography …

The realization of true point-of-care (PoC) systems profoundly relies on integrating the
bioanalytical assays into “on-chip” fluid handing platforms, with autonomous performance …

Understanding transport phenomena and governing mechanisms of different physical and
chemical processes in porous media has been a critical research area for decades …

Laser micromachining technique offers a promising alternative method for rapid production
of microfluidic devices. However, the effect of process parameters on the channel geometry …

The ultrafast laser-matter interaction is explored to induce new pioneering principles and
technologies into the realms of fundamental science and industrial production. The local …

Microfluidics has emerged as a transformative force in the field of drug delivery, offering
innovative avenues to produce a diverse range of nano drug delivery systems. Thanks to its …

Recent developments in 3D-printing technology have provided a time-efficient and
inexpensive alternative to the fabrication of microfluidic devices. At present, 3D-printed …