The ability to construct multiplexed micro-systems for fluid regulation could substantially
impact multiple fields, including chemistry, biology, biomedicine, tissue engineering, and soft …

During the last two decades, 3D printing technology has emerged as a valid alternative for
producing microfluidic devices. 3D printing introduces new strategies to obtain high …

The last decade has witnessed an immense demand for the development of new glucose
biosensors. The research has mainly focused on achieving biocompatible and improved …

The field of 3D printing, also known as additive manufacturing (AM), is develo** rapidly in
both academic and industrial research environments. New materials and printing …

Traditional microfabrication techniques suffer from several disadvantages, including the
inability to create truly three-dimensional (3D) architectures, expensive and time-consuming …

In the last two decades, the vast majority of microfluidic systems have been built in poly
(dimethylsiloxane)(PDMS) by soft lithography, a technique based on PDMS micromolding. A …

The emergence of soft robots has presented new challenges associated with controlling the
underlying fluidics of such systems. Here, we introduce a strategy for additively …

Digital light processing (DLP) 3D printing is rapidly advancing and has emerged as a
powerful additive manufacturing approach to fabricate analytical microdevices. DLP 3D …

While there is great interest in 3D printing for microfluidic device fabrication, to-date the
achieved feature sizes have not been in the truly microfluidic regime (< 100 μm). In this …

Organs-on-a-chip, or OoCs, are microfluidic tissue culture devices with micro-scaled
architectures that repeatedly achieve biomimicry of biological phenomena. They are well …