David Juncker

TL;DR: This work critically review the techniques used to form cell-free and cell-laden fibers and to assemble them into scaffolds and compares their mechanical properties, morphological features and biological activity.

TL;DR: The history and progress of microchannel-based capillary microfluidics spanning over three decades is reviewed, including three distinct waves of development driven by microfabrication technologies starting with early implementations in industry using machining and lamination, followed by development in the context of micro total analysis systems and lab-on-a-chip devices using cleanroom microfabRICation.

TL;DR: In this article, a high-resolution printing technique based on transferring a pattern from an elastomeric stamp to a solid substrate by conformal contact is presented, which is an attempt to enhance the accuracy of classical printing to a precision comparable with optical lithography, creating a low-cost, large-area, highresolution patterning process.

TL;DR: This review is an account of the efforts to develop a versatile and flexible microfluidic technology for surface‐processing applications and miniaturizing biological assays and addresses some of the major challenges for confining chemical and biochemical processes on surfaces.