Dynamic Interface Printing for High-Speed Biofabrication
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Dynamic Interface Printing for High-Speed Biofabrication
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About this listen
In this episode, we dive into the groundbreaking new technique, Dynamic Interface Printing (DIP), that’s setting a new standard in 3D printing. Imagine creating intricate, centimeter-scale structures in seconds, not hours, all without the complex chemistry and optics of traditional methods. DIP achieves this using an acoustically modulated air-liquid interface, enabling rapid, high-resolution fabrication ideal for bioengineering, medical models, and more. From tissue engineering to rapid prototyping, DIP's potential is immense, merging speed, scalability, and biocompatibility. Join us as we explore how this innovation could reshape the future of manufacturing and medical technology.
This research was led by Callum Vidler and David J. Collins from the University of Melbourne, alongside their colleagues from various departments, including Biomedical Engineering, the Florey Institute, and Physics from University of Melbourne, Australia
Published in Nature
https://doi.org/10.1038/s41586-024-08077-6