We are proud to share the news with you!

Our team leader, Dr. Marco Costantini has successfully presented his habilitation colloquium on "Microfluidic assisted synthesis of biopolymeric materials with tunable composition, morphology, and physio-chemical properties." The colloquium took place today, 24.07.2024, at Institute of Physical Chemistry, Polish Academy of Sciences

This significant achievement reflects his dedication and expertise in the field of biomaterials and 3D bioprinting. We are so proud of his accomplishments and the valuable contributions he brings to our team and the broader scientific community.

We're thrilled to welcome Fabio Maiullari to our team! 😊

With his extensive background in tissue engineering, cell biology, 3D bioprinting, and disease modeling, we are sure his expertise will enhance our research outputs. Fabio will be concentrating on skeletal muscle regeneration, and we're eager to see the fresh insights and innovative ideas he'll bring.

Welcome aboard, Fabio!

Annyeonghaseyo!!

Our colleagues Nehar Celikkin & Maria Celeste Tirelli will deliver talks at the World Biomaterials Congress 2024 in Daegu, South Korea.

Nehar will talk about “Rotary wet-spinning biofabrication of skeletal muscle constructs and electro-mechanical stimulation towards the in vitro production of functional myo-substitutes" on Tuesday, May 28th at 8:50 AM in room 325-CD.

Maria Celeste will discuss "Microfluidic-assisted digital manufacturing of functionally graded porous materials with transient physical and biological properties" on Thursday, May 30th, at 9:00 AM in room 325-CD.

If you are attending the congress, we invite you to join their sessions 🫰

New Publication Alert!!!
“Tuna-step: tunable parallelized step emulsification for the generation of droplets with dynamic volume control to 3D print functionally graded porous materials”

Our versatile design enabled us to additionally achieve multi-material 3D deposition by rapidly switching between different continuous phases. Finally, we demonstrated the scalability potential of our tuna-step by producing droplets using a 14-nozzle device, increasing the system throughput by a factor of ∼14, an aspect particularly important for the manufacturing of macroscopic hydrogel with the controlled porosity within the whole volume.

Photo source: Grzegorz Krzyzewski