Research

RESEARCH

Materials Development for 3D Printing

Our research focuses on developing functional materials with tailored properties for 3D printing, specifically designed for applications in bone implants, tissue regeneration, drug delivery, bioelectronics, and more. We AIM to create the next generation of bioinks, precisely engineered for our advanced 3D printing technologies.

Design for 3D Printing

We focus on designing the topology as it directly impacts the functionality and integration of bioprinted tissues and organs with their micro/ macroenvironment. Effective structural design ensures that constructs mimic the complex architecture of native tissues, providing necessary mechanical support and a conducive biological environment for cell growth. It also facilitates vascularization, essential for nutrient delivery and waste removal, enhancing tissue viability and longevity.

3D Printing Process Development

We AIM to develop cutting-edge 3D printing technologies that enable the rapid biofabrication of functional materials within the human body. By integrating advanced minimally invasive 3D printing techniques with biological systems, we seek to create innovative solutions for tissue engineering, regenerative medicine, and personalized healthcare, ultimately improving patient outcomes and advancing the frontiers of medical technology.