Dynamic Interface Printing: A Novel Biofabrication Method

Datum

19.11.2024

Zeit

14:30 - 15:30

Sprecher

Michael Halwes

Zugehörigkeit

University of Melbourne, Department of Biomedical Engineering

Sprache

en

Hauptthema

Materialien

Host

Ines Firlle

Beschreibung

Additive manufacturing is an expanding multidisciplinary field encompassing applications including medical devices, aerospace components, microfabrication strategies, and artificial organs. Our group has recently introduced dynamic interface printing, a new 3D printing approach that leverages an acoustically modulated, constrained air–liquid boundary to rapidly generate centimetre-scale 3D structures within tens of seconds. Unlike volumetric approaches, this process eliminates the need for intricate feedback systems, specialized chemistry or complex optics while maintaining rapid printing speeds. We have demonstrated the versatility of this technique across a broad array of materials and intricate geometries, including those that would be impossible to print with conventional layer-by-layer methods. In doing so, we demonstrated the rapid fabrication of complex structures in situ, overprinting, structural parallelization and biofabrication utility. Moreover, we showed that the formation of surface waves at the air–liquid boundary enables enhanced mass transport, improves material flexibility and permits 3D particle patterning. We, therefore, anticipate that this approach will be invaluable for applications where high-resolution, scalable throughput and biocompatible printing is required.

Links

• Seminars at the IFW

Letztmalig verändert: 19.11.2024, 07:36:08