Traditional electronics are undergoing a significant transformation towards sustainability, driven by the challenges posed by increasing e-waste and advancements in material science and manufacturing technologies. As scientific innovations continue to evolve, the path towards more eco-friendly electronics becomes clearer, promising a greener future for the industry.
We are interdisciplinary team dedicated to pioneering advancements in sustainable materials, innovative printing processes, and flexible electronic devices. Our mission is to develop environmentally friendly materials and cutting-edge fabrication techniques that contribute to the creation of high-performance, flexible electronic devices. Through interdisciplinary collaboration, rigorous research, and a commitment to sustainability, we strive to lead the field of printed electronics towards a more sustainable and technologically advanced future. We integrate these technologies in bioelectronics systems and work closely with clinicians to demonstrate innovative approaches to study, diagnose, and treat diseases.
Join us in our mission to innovate responsibly and pave the way for a greener, more sustainable future in technology
The vision for future electronics is composed of circuits and devices that are flexible, bendable, biocompatible, biodegradable and conformally integrated in to everyday objects. Birth of new-age electronics requires novel fabrication techniques that are compatible with low-temperature substrates. Printed Electronic Technology provides a unique route to enable functional circuits om unconventional surfaces (paper, textiles, polymers, biomaterials). The technology uses nanomaterial inks to print a circuit design on desired substrate, thus allowing a flexible form factor.
