For me, Maker Faire Rome means a magical adventure that made me realize the true meaning of creativity and innovation. And, it helped me to gain a new perspective on my projects and creative journey, which pushed me in more innovative and bold directions.
Exhibitors 2023
- ART
- ARTISANS & NEW CRAFT
- FASHION & WEARABLES
- RECYCLING & UPCYCLING
- STEAM PUNK
- CIRCULAR ECONOMY
- PRODUCT DESIGN
- STARTUP
- BIOLOGY
- EDUCATION
- MUSIC & SOUND
- SCIENCE
- GAMES
- HACKS
- INTERNET OF THINGS
- OPEN SOURCE
- HOME AUTOMATION
- FABRICATION
- NEW MANUFACTURING
- ROBOTICS
- INDUSTRIAL AUTOMATION
- 3D PRINTING
- ENERGY & SUSTAINABILITY
- YOUNG MAKERS (< 18)
- WELLNESS & HEALTHCARE
- AEROSPACE
- FOOD & AGRICULTURE
- 3D SCANNING
- ARTIFICIAL INTELLIGENCE
- DRONES
- KIDS & EDUCATION
- CULTURAL HERITAGE
- RETROCOMPUTING
- VIRTUAL REALITY
- CYBERSECURITY
Biostampa di tessuti una cellula alla volta
Our goal at CLN2S is to 3D print cells and biomaterials to create tissues to simulate a pathological condition and investigate the safety and efficacy of newly discovered drugs.
At Maker Faire, we aim to illustrate the use of multiple 3D printers and bioprinters, both commercial and custom-made, as well as biomaterials, bringing to the live audience our experience in the lab. The audience will be able to touch, play and experience objects that we will be printing live – making the experience unique and interactive.
Gianluca Cidonio, Chiara Scognamiglio, Martina Marcotulli, Salvatore D’Alessandro, Efsun Senturk
Gianluca Cidonio and Chiara Scognamiglio are research scientists IIT CLN2S. Gianluca is working on novel microfluidic-bioprinting technologies. Chiara is focusing in printing tissue for vascular regeneration and cancer studies. Efsun Senturk, Martina Marcotulli and Salvatore D’Alessandro are PhD students at IIT CLN2S. Efsun is working on engineering vascularized tissues using 3D bioprinting. Martina is studying new ways to generate hierarchical 3D structures and stimulate cells with ultrasounds. Salvatore is looking at engineering unique 3D robotic technologies for tissue bioprinting