Melt electrowriting (MEW) is an emerging additive manufacturing (AM) technology that
enables the precise deposition of continuous polymeric microfibers, allowing for the creation …

The field of melt electrowriting (MEW) has seen significant progress, bringing innovative
advancements to the fabrication of biomaterial scaffolds, and creating new possibilities for …

In just a few short years, the additive manufacturing (AM) technology known as 3D printing
has experienced intense growth from a niche technology to a disruptive innovation that has …

Despite the growing significance of generating highly porous, high‐precision 3D printed
scaffolds using melt electrowriting (MEW), the absence of easy‐to‐use and robust design …

Melt electrowriting (MEW) is an established 3D printing technology for producing high-
resolution scaffolds for tissue engineering. Commercial MEW devices are expensive while …

Melt Electrowriting (MEW) is a continuously growing manufacturing platform. Its advantage is
the consistent production of micro‐to nanometer fibers, that stack intricately, forming …

This study demonstrates a new approach to manufacturing biomimetic auricular surgical
implants using melt electrowriting (MEW) technology to fabricate microfiber high‐density …

Melt electrowriting (MEW) is an electrohydrodynamic additive manufacturing technology for
the fabrication of precise microfiber scaffold architectures but is so far restricted to printing …

The incorporation of 3D-printing principles with electrohydrodynamic (EHD) jetting provides
a harmonious balance between resolution and processing speed, allowing for the creation …

This thesis contributes to the advancement of the technology for melt electrowriting (MEW)
by presenting innovations from three perspectives, specifically i) hardware (filament-based …