Bioengineering
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Bioengineering drives innovation in fields such as tissue engineering, regenerative medicine, and advanced diagnostics. Structured UV light enables precise polymerization of biocompatible materials, opening new possibilities for targeted stimulation, scaffolds, organ-on-chip systems,microfluidics, and custom implants.
With In-Vision’s high-contrast UV Light Engines featuring pixel pitches smaller than the size of cells, researchers and developers gain unmatched precision, flexibility, and speed. High-resolution light engines accelerate prototyping, shorten development cycles, and bring breakthroughs in bioengineering closer to clinical and industrial use.
Bioengineering stories from IN-VISION
HELIOPORA
In-Vision's innovation for customizable structured light for Optogenetic, lithography and biotechnology applications!
3D-Printed Microneedles - NUMBAT
The AIT partnered with In-Vision to develop a high resolution DLP 3D printer to create a microneedle solution for continuous glucose monitoring.
Advancing Soft Tissue Regeneration
A proof-of-concept 3D bioprinter uses DLP technology to enable on-demand soft tissue regeneration with speed and cell viability.
When will the first organ come out of the printer?
Bioprinting pioneer Dr. Y. Shrike Zhang from Harvard University gives a clear statement about this myth.
Futuristic Applications with DLP Printing
MIT-Professor Nicholas Fang breaks all rules of miniaturization. A portrait of an outstanding pioneer in 3D-Printing.
Bioprinting in space
Imagine 3D-printing without gravity: the vision of 3D-printing and biomanufacturing in space is already reality.
More stories from In-Vision
Can't get enough of our use cases and success stories? Discover more here:
Volumetric 3D-Printing of Endoskeletal Soft Robots with IN-VISION’s real 4K UV Projector PHOENIX
Cameron Darkes-Burkey (Department of Materials Science and Engineering) and Robert F. Shepherd (Department of Mechanical and Aerospace Engineering) from Cornell University worked on volumetric 3D printing of endoskeletal soft robots with IN-VISION’S Phoenix 4K Light Engine. The publication was recently published in Advanced Materials Journal.
2 min.July 22, 2024IN-VISION's Light Engines used to revolutionize of the fabrication of microscopic particles
Recently a publication was released in nature journal that describes Joseph DeSimone's (department of Chemical Engineering and Radiology from Stanford University) work on particle fabrication using the continuous liquid interface production with IN-VISION's Light Engines.
2 min.April 3, 2024In-Vision supports quest to develop revolutionary sub-micron resolution 3D-printing process
As electronic devices become more and more miniaturised, the demand for smaller optical components creates production challenges. Conventional methods for 3D-printing of sub-micron sized photonic devices is, in most cases, very costly and impractical outside of a laboratory. Read how In-Vision is helping to overcome this challenge.
3 min.August 10, 2023A New Material and Fast 3D Printing Revolutionize Orthotics
An Austrian startup has found a way to make orthotics more comfortable. They established a super-fast 3D DLP based printing process that delivers them to patients much sooner.
4 min.March 14, 2021Light-based Bioprinting Materials support Cytocompatibility & Bio-functionality for In Vitro & In Situ Polymerization
Professor Khoon Lim and his team at the University of Sydney have been hard at work developing materials that preserve the viability and bio-functionality of bio-printed tissues while realizing the speed, and scale of 3D bioprinting through the use of visible light.
5 min.April 19, 20234DbloodROT - Heart Pump Rotor from the 3D Printer
Novel rotors for heart pumps have been developed in collaboration with the research companies Joanneum Research and Polymer Competence Center Leoben GmbH, the Montanuniversität Leoben and Lithoz GmbH.
5 min.June 9, 2022Volumetric 3D-Printing builds parts in a single step, opens the door to faster, more diverse additive manufacturing
Collaboration between researchers at UC Berkeley & Lawrence Livermore National Lab leverages CT scanning concepts to build higher-performance objects in seconds.
6 min.December 15, 2021Bio-inspired chemistries can make for safer, more sustainable Additive Manufacturing solutions
Researchers are investigating new materials and processes inspired by nature with the goal of making 3D printing more sustainable at scale.
6 min.January 26, 2022Ceramic Components by Digital Light Processing
An interview with Alberto Ortona, Professor and head of the Hybrid Materials Laboratory at SUPSI, about how complex ceramic objects can be realized through stereolithography.
5 min.October 11, 2022Photopolymerization in 3D Printing
Photopolymerization processes enable the creation of complex geometries and very small feature sizes. Let's dive into the different processes (SLA and DLP) and their applications .
7 min.April 28, 2021
