Pioneering the Future of Healthcare:
Conductive Hydrogels for Advanced Biosensing and Bioelectronics

Conductive hydrogels are transforming biomaterials science, bridging the worlds of bioelectronics and tissue engineering. This innovative project is focused on developing soft, conductive hydrogels by chemically modifying non-conductive polymers with advanced conductive materials like poly(pyrrole), carbon nanotubes and PEDOT:PSS. These modifications drastically improve the hydrogels' electrical conductivity, unlocking vast potential for applications in neural interfaces, wearable sensors, and biosensing technologies.

What sets this project apart is our pioneering integration of enzymatic functions within the conductive hydrogels, enabling the development of customizable biosensors designed to detect specific biomolecular targets. We are also focused on optimizing biocompatibility, adhesiveness, and mechanical properties to create "second skin" sensors for non-invasive, real-time monitoring in personalized healthcare.

This groundbreaking approach promises to revolutionize biosensor technology, offering more efficient, sensitive, and adaptable solutions for the future of healthcare.