Additive manufacturing has grown exponentially, led by the three-dimensional (3D) printing
of materials ranging from plastics and ceramics to metals. 3D printing methods are …

Extrusion bioprinting has been widely used to extrude continuous filaments of bioink (or the
mixture of biomaterial and living cells), layer-by-layer, to build three-dimensional constructs …

Tissue engineering and regenerative medicine field, which focuses on creating functional
tissue constructs resembling native tissue to repair or replace damaged tissues or organs …

A stable capillary liquid jet formed by an electric field is an important physical phenomenon
for formation of controllable small droplets, power generation and chemical reactions …

Although extrusion-based 3D printing processes have seen many successful applications at
the macroscale, it has proven to be challenging for consistent, repeatable, and cost-effective …

Whilst extrusion-based 3D printing processes have been successfully applied at the
macroscale, this seeming simplicity belies the dynamic complexities needed for consistent …

An electrohydrodynamic model for the simulation of droplet formation, detachment and
motion in an electrically driven droplet generator is introduced. The numerical approach is …

Bioprinting is a relatively new technology where living cells with or without biomaterials are
printed layer‐by‐layer in order to create three‐dimensional (3D) living structures. In this …

Applying superwetting materials to tailor liquid dynamics has demonstrated advanced
applications in directed liquid transportation, droplet manipulation etc., and holds promise to …

Electrospray cooling is experimentally examined for high volumetric flow rates (80 mL/h)
stabilized by a novel hemispherical nozzle. Stability of the Taylor cone-jet mode of this …