Ivan Brown’s Post

We are driving the future of innovation in partnership with global leaders in science and technology. Imagine 3D-printed scaffolds that not only support but enhance regenerative biotherapies—strong enough to thrive within the human body. Thanks to the synergy of our precision technology and CollPlant’s Collink Bio-Ink, we’re making this vision a reality. With recombinant human Type I collagen (rhCollagen), the possibilities are limitless—pioneering solutions in regenerative medicine, biomedical research, and beyond. Together, we’re transforming research into real-world impact. #3DPrinting #RegenerativeMedicine #InnovationUnleashed #Biofabrication #AdvancedMaterials #Biotechnology #DigitalManufacturing #TechForGood #BiomedicalBreakthroughs #AdditiveManufacturing #ScalingInnovation #FutureOfMedicine

🚀 Introducing 2Dx® AD-BIO: Creating A Greener Future with Graphene 🌿 We are thrilled to announce the launch of our latest innovation, 2Dx® AD-BIO. This groundbreaking product leverages the power of our 2Dx® material to revolutionize bio-based adhesives for paper products, corrugated board, particle and fiber board, and other wood and cellulose applications. Why 2Dx® AD-BIO? 2D fab is at the forefront of enabling a greener future, and with 2Dx® AD-BIO we’re helping our customers reduce their carbon footprint Here’s what makes 2Dx® AD-BIO stand out: 🌟 Key Features: ✅ Improved Thermal Properties Up to 40% lower operating temperature for pressing and drying, reducing energy consumption. ✅ Improved Gelatinization and Water Retention Less glue needed, higher wet strength ✅ Adhesion promoter Strengthened glue joints for more robust applications. ✅ Boosted Production Speed Up to 45% increase in production speed, making operations more efficient. For more information go to our website and download our application description or send us an email! #Graphene #Sustainability #Innovation #BioBasedAdhesives #GreenTechnology #EcoFriendly #Launch #Adhesive

Another application for our 3D bioprinters! Building #biosensors. The #biotech company NovoSens will be using the #bioprinting technology with our 3D-Ed bioprinter for automating the fabrication of biosensors. This has a huge potential on different industries like healthcare (POC) and the food industry. They deposit 2-8 uL drops of their material, so we developed a specific extrusion module with a nano liter resolution.

Check out our recent study, which is now online in the Chemical Engineering Journal! Cheers to co-author Arkodip Mandal and to Prof. Kaushik Chatterjee for his incredible guidance, support, and mentorship! This work introduces innovative polymeric ink formulations compatible with advanced DLP-based #3D #printing technology. These formulations enable the creation of highly #conductive #hydrogels with customizable mechanical properties. The unique combination of desirable attributes makes these hydrogels ideal for #wearable and #implantable devices, as well as for applications in #soft #robotics and #machine-#tissue #interfaces, particularly in delicate tissues like the brain, heart, and muscles. Notably, these hydrogels exhibit excellent #freezing and #dehydration tolerance, maintaining their functionality even at temperatures as low as -80°C, which opens up possibilities for use in #space #research. Additionally, the ink is suitable for #4D #printing, allowing the hydrogels to undergo programmable structural changes. This all-in-one ink formulation offers a versatile solution for various applications, including extreme temperature conditions, potentially accelerating advancements in multiple fields.

#hydrogels are widely used in #biomedical applications. However, they lack #electrical #conductivity and lose flexibility at low temperatures. Pritiranjan Mondal and Arkodip Mandal developed a novel ink formulation for #DLP-based #3Dprinting to fabricate hydrogels that resist #freezing and maintain conductivity at sub-zero temperatures while maintaining #toughness and #stretchability with minimal #toxicity. The ink was also used for #4Dprinting of hydrogels that exhibit programmed shape changes. These multi-functional gels can yield hydrogel-based #electronicdevices to fabricate #humanmachineinterfaces, #wearabledevices, #softrobotics, and more. #biomaterials #additivemanufacturing #bioengineering https://lnkd.in/gaiGUAzu

Bio-printing represents a monumental leap forward in our ability to heal and restore the human body. As research and technology advance, we move closer to a future where the limitations of current medical treatments are transcended by the boundless possibilities of what we can print. #Bioprinting #HealthcareInnovation #RegenerativeMedicine #3DPrinting #MedicalTechnology #FutureOfMedicine #Biotechnology #HealthTech

Say goodbye to uneven polymerization and wasted materials! 💡 See this post to learn all about Cerulea, our advanced UV Curing Box, designed to deliver precise and uniform curing every time. ⚡ Get the reliability you need for accurate results in your bioprinting and biomaterial projects. #ResearchSolutions #Bioprinting #UVCuring #Bioengineering #BiotechInnovation #LaboratoryEquipment #AdvancedTechnology #Biofabrication #3DPrinting #BiomedicalResearch #AvayBiosciences

𝗪𝗵𝗮𝘁 𝗶𝘀 𝗮 𝗯𝗶𝗼𝗶𝗻𝗸? Bioinks are considered the main component when it comes to #Bioprinting, allowing scientists to #3Dprint acellular and cellular scaffolds which has driven several advances in #regenerativemedicine. #Bioinks are comprised of a combination of polymers, additives, and crosslinkers, which are then impregnated with cells and loaded into a bioprinter to print 3D structures. Natural polymers are popular among researchers due to their nature and their ability to encourage cell adhesion, growth, #proliferation, and mimics extracellular matrix components. Humabiologics offers native human-derived #collagen, #gelatin, and extracellular matrices (#ECM) for #tissueengineering applications like bioink formulations. Learn more about our products here: https://lnkd.in/e_PsHPPA #3dcellculture #biomaterials #3dprinting #hydrogel

NovaSterilis supports R&D in #lifesciences by offering trusted, FDA-recognized #sterilization solutions. Our supercritical CO2 (#scCO2) technology is compatible with a wide range of materials, making it ideal for labs searching for equipment capable of sterilizing a broad array of components and novel biomaterials. Explore our R&D tools for safe, scalable sterilization: https://bit.ly/3YKUZih