Microfluidics has developed into a mature field with applications across science and
engineering, having particular commercial success in molecular diagnostics, next …

Developments in the field of microfluidics have triggered technological revolutions in many
disciplines, including chemical synthesis, electronics, diagnostics, single-cell analysis, micro …

This article reviews the application of electric circuit methods for the analysis of pressure-
driven microfluidic networks with an emphasis on concentration-and flow-dependent …

Flow field designs for the bipolar plates of the proton exchange membrane fuel cell are
reviewed; including the serpentine, parallel, interdigitated, mesh type or their mixtures …

The branching structures found in biological systems have evolved to an optimum
arrangement that distributes nutrients efficiently in the system. Since the flow fields of …

Treelike structures abound in natural as well as man-made transport systems, which have
fascinated multidisciplinary researchers to study the transport phenomena and properties …

Bio‐microfluidics applies biomaterials and biologically inspired structural designs
(biomimetics) to microfluidic devices. Microfluidics, the techniques for constraining fluids on …

The fabrication of microfluidic channels with complex three-dimensional (3D) geometries
presents a major challenge to the field of microfluidics, because conventional lithography …

The vascular network is a central component of the organ‐on‐a‐chip system to build a 3D
physiological microenvironment with controlled physical and biochemical variables. Inspired …

Throughout history, capillary systems have aided the establishment of the fundamental laws
of blood flow and its non-Newtonian properties. The advent of microfluidics technology in the …