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One more from our March most read: '3D printing of reactive macroporous polymers via thiol–ene chemistry and polymerization-induced phase separation' by Zheqin Dong and Pavel Levkin #OpenAccess🔓 pubs.rsc.org/en/content/art…

Badische Meile 8.88 km, 48’50’. The whole race I was trying to catch up with a guy with a stroller :)

Future Biomaterials: Data-Driven Insight to Cell-Biomaterial Interaction - open lectures. 9 Lectures at Lund University. ai.lu.se/2024-05-29--30

Great time at Lund University attending the Future Biomaterials: Data-Driven Insight to Cell-Biomaterial Interaction

Our research group celebrated the beginning of summer by participating in the traditional Dragonboat race in Heidelberg as the “Biofunctional Dragons”😂 We placed 13th out of 25 teams! Thanks to all group members for making it a great event!

Enhancing the temperature responsiveness of poly(N-isopropylacrylamide) (PNIPAM) by incorporating hierarchical porosity: nm-sized pores through polymerization-induced phase separation, while mm pores using 3D printing 😍. onlinelibrary.wiley.com/doi/full/10.10… 3D Matter Made to Order Shmoopy

My friends are organizing a very interesting Nanomedicine School in Italy. The Nanomedicine School is dedicated to Master students, PhD students, early stage researchers, and whoever is interested in an introduction to this rather new field of research. ba.ic.cnr.it/nanomedicine20…

Today found it in the office instead of a PhD student

Welcome to our new group member! Not very social but very hard working. #phdlife #WorkLifeBalance #teamwork #phdchat

Using this new method, CART (Carrier-based Actuatable and Reprogrammable Transport), it is possible to transport tiny droplets, gas bubbles, or even small solid samples on surfaces using tiny magnetic "boats". Check this out: onlinelibrary.wiley.com/doi/10.1002/ad… Shmoopy 3D Matter Made to Order

Functional Surfaces and Micropatterns: from Superhydrophobicity to Drug Discovery. Lecture at the Wiley´s Advanced Summit in 2024. Many thanks to the entire Wiley team and all the editors of Advanced journals for organizing this wonderful symposium.🤓

Congratulations to Stefan Bräse Verena Weinhardt and Christian Koos! 💪

Ever wondered how to perform tens of thousands of nanoliter droplet manipulations in a truly parallel fashion? Here we show a method that enables parallel medium exchange in thousands of nanoliter-scale cell cultures, facilitates the extraction of nanoliter-sized aliquots

The video below shows parallel transfer of HEK293 cell spheroids from one droplet microarray to another one by sandwiching. onlinelibrary.wiley.com/doi/10.1002/ad…

An interesting unpublished video from the lab showing how a square mL droplet forms when water is placed on a surface patterned with a grid of superhydrophobic (SH) lines and superhydrophilic (SL) spots. The SH lines are approximately 100 µm thick, while the SL squares are about

This week´s photo of our amazing research group after Max’s farewell party. Wishing Max all the best in his future endeavors! 💪 One of the greatest advantages of working in academia is that you are constantly surrounded by smart, talented and eternally young people. However,

Here, we used two-photon lithography (TPL) in combination with polymerization-induced phase separation to 3D-print complex microstructures with a well-defined nanoporous architecture featuring pores of 420 nm. These structures can be impregnated with functional liquids via