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Researchers have developed a novel approach to #3Dprinting they call “CLEAR,” which significantly improves the strength and durability of materials by using a combination of light and dark chemical reactions to create densely entangled polymer chains. scim.ag/7Wx

Really enjoyed reading this interview and learning more details about your past and future work!

New pre-print from Ankita Pramanick on bioprinting shape-morphing tissues in granular supports. We found morphing enhanced the maturation of iPSC-CMs Nice collab with Eoin McEvoy lab on predictive FE models tinyurl.com/3ddkk7wh European Research Council (ERC) CÚRAM Biomedical Engineering University of Galway

Really cool work Keisuke Nakamura 中村圭佑 Niko Di Caprio BurdickLab !

I dared to dream, and God showed mercy! Check out our paper in Nature Biomedical Engineering on how immunometabolic cues regulate the trafficking and polarization states of immune cells around biomaterials: rdcu.be/dVZIN. To our co-authors, collaborators and peer reviewers--thank you!

Happy to see this work on #kidney tubule packing out today in Nature Materials! 🥳 This was a team effort with Alex Hughes Lab, major shoutout to co-first authors Jiageng Liu & John Viola for all of your hard work, time, and expertise.

Huge congrats Jason!

Excited to share my personal website focused on scientific graphic design. Filled with examples and tutorials to get any student started! Check it out, if interested! spheroidfarmer.com

Delighted to share my latest work, co-first authored with fantastic undergrad mentee Joshua Lee, on highly entangled hydrogels with photolabile crosslinks. We compare selective crosslink cleavage (which lengthens chains) to non-selective photo-oxidative degradation. Link below!

Need something to read this winter as you say goodbye to 2024? Check out a sampling of what #CUBoulder researchers learned about the universe this year. These discoveries should help keep you inspired through January and beyond. bit.ly/3VPxvYJ

We are excited to celebrate the successful PhD defense of Dr. Nikolas Di Caprio! Niko developed novel injectable cell spheroid - microgel systems for cartilage repair and 3D printing, and contributed to numerous collaborative projects in the lab. Congrats, Dr. Niko Di Caprio! 🍾

Excited to share our latest work, now out in Science Advances, led by Niko Di Caprio (in collab. w/ @HughesLabPenn) developing programmable shape transformations with granular composites to produce stable curvature in engineered tissues. NIH CEMB Link: doi.org/10.1126/sciadv…

Excited to share a research feature that will soon be at The Franklin Institute! This work would not be possible without direct funding from U.S. National Science Foundation CEMB Schmidt Science Fellows NIH. #fundscience youtube.com/shorts/RAd4hAx…

For those interested in granular materials, hydrogel mechanics, et al. Check out Aina Solsona and Niko Di Caprio's paper, "Measurement and Comparison of Hyaluronic Acid Hydrogel Mechanics Across Length Scales." Link: onlinelibrary.wiley.com/doi/epdf/10.10… BioFrontiers 💻🦠🧬🧪🧫💉📊📓 CU Boulder 🦬

Free access to @apdhand Matthew Davidson BurdickLab 's recent review of Lithography-based 3D printing of hydrogels. nature.com/articles/s4422… Thank you Nature Reviews Bioengineering for making this available!

1️⃣For years, scientists have known that mechanical tension influences cell behavior. But in our recent study in Nature Materials we found that it is not just the amount of tension—it is the direction! nature.com/articles/s4156…

A powerful strategy to develop materials for sustainability is to reimagine the existing economically important materials. In a new paper published in Nature Sustainability, we show that the performance of natural rubber can be greatly enhanced.suo.seas.harvard.edu/files/suo/file…