There is a specialized niche for the electrohydrodynamic jetting of melts, from biomedical
products to filtration and soft matter applications. The next frontier includes optics …

Melt electro writing (MEW) is a high-resolution 3D printing technique that combines
elements of electro-hydrodynamic fiber attraction and melts extrusion. The ability to precisely …

A novel fibre printing apparatus was developed, employing the principles of additive printing
and melt electrospinning, and used to form fibre mats. Five commercially available …

An understanding of the reinforcement mechanism in composites is crucial for the
development of novel materials where the application is limited by their mechanical …

Melt electrospinning is an electrohydrodynamic technique used to produce submicron
polymer fibers. Melt electrospun fibers have applications in tissue engineering as …

Defined structures for tissue engineering can be achieved by a variety of techniques, one of
which includes melt‐electrowriting (MEW), a technology that deposits spatially defined …

Melt electrowriting (MEW) is an aspiring 3D printing technology with an unprecedented
resolution among fiber-based printing technologies. It offers the ability to direct-write …

Hyaluronic acid-based nanofiber scaffolds imitating the natural extracellular matrix, which is
promising for use in tissue engineering, have been prepared by electrospinning. Hyaluronic …

Abstract (EN) BACKGROUND Cell-sized structures such as electrospun mats have been
shown to tailor cell growth in a variety of ways and thus have great potential in the …

This thesis presents a path towards a multi-material, multi-technology biofabrication
approach to harness the cumulative advantages of multiple materials across multiple scales …