Brinter AM Proudly Contributes to STRONG-UR Consortium: Revolutionizing Tissue Reconstruction with Bioprinting
Advancing Regenerative Medicine Through Innovation Brinter AM is proud to be a key partner in the STRONG-UR project, which introduces a unique combination of novel manufacturing technologies and advanced biomaterials. This initiative is set to transform tissue reconstruction and make healthcare more accessible. With a primary focus on regenerative medicine, STRONG-UR is advancing the fabrication […]
ADVANCED ELECTRONIC MATERIALS// Multistep Fabrication of OECTs via Direct Ink Writing, With Performance Analysis Based on a Novel Measurement Protocol
https://onlinelibrary.wiley.com/doi/10.1002/aelm.202400742 Abstract Organic electrochemical transistors (OECTs) have been proven beneficial for bioelectronic applications. However, the demand for reliable and fast fabrication methods has not yet been fully met. In this work, OECTs are fabricated using direct ink writing (DIW). This method is cleanroom-free and can be done without using lithography techniques. These devices are characterized and […]
BIO INX, Puredyne, and AM Technologies by Brinter Unite to Revolutionize Standardization and Reproducibility in Extrusion Bioprinting
Turku, Finland – 20/11/2024 – AM Technologies by Brinter, an innovator in bioprinter manufacturing, Puredyne, a pioneer in extrusion printhead technology, and BIO INX, a leader in advanced bioinks, are proud to announce a groundbreaking collaboration aimed at achieving unparalleled standardization and reproducibility in extrusion-based bioprinting. This partnership builds upon the existing collaboration between BIO […]
Pioneering Low-Energy IR in 3D Bioprinting: The Red Light Revolution
As the field of bioprinting evolves, the demand for safer, more efficient, and versatile technologies continues to grow. While UV crosslinking has long been a staple in 3D printing, the use of low-energy light (red light) is emerging as a transformative innovation, offering distinct advantages for advanced material development and tissue regeneration. Why Shift to […]
Brinter AM Technologies will provide a 3D bioprinter for Advanced Tissue Manufacturing capabilities at the International Space Station (ISS) for an ESA project.
🚀 Exciting News: Brinter AM Technologies is Sending a 3D Bioprinter to the ISS! 🌍
We are proud to announce that Brinter Core will be onboard the International Space Station, advancing tissue manufacturing in space. This groundbreaking collaboration with Redwire Space NV and the European Space Agency (ESA) will explore the effects of microgravity on 3D-printed cell constructs, paving the way for new healthcare solutions both in space and on Earth.
Stay tuned for more updates as we push the boundaries of bioprinting and space exploration!
#Bioprinting #SpaceExploration #HealthcareInnovation #3DPrinting #ESA #ISS #Brinter
