Accelerating materials discovery by AI & robotics 

The intersection of artificial intelligence (AI) and robotics is revolutionizing the field of materials discovery, enabling faster, more efficient, and more cost-effective breakthroughs than ever before. Traditional materials research often relies on trial-and-error experimentation, which can be time-consuming and resource-intensive. By integrating AI and robotics, researchers can optimize the discovery and development process, tackling challenges in energy, healthcare, electronics, and sustainability. 

Novel functionalities, next-gen Fibers and Textiles

The development of advanced fibers and textiles with novel functionalities is revolutionizing wearable devices, creating materials that combine comfort and durability with the ability to generate energy, sense environmental or physiological changes, and interact with electronics. These multifunctional textiles are poised to redefine industries like healthcare, energy, and consumer electronics by integrating technologies directly into the fabric of everyday life. 

Organic mixed ionic-electronic conductors for wearable electronic devices

Organic mixed ionic-electronic conductors are a class of advanced materials uniquely suited for wearable electronic devices. These materials exhibit the ability to transport both ions and electrons, enabling seamless integration of electronic and biological systems. Their flexibility, biocompatibility, and multifunctionality make them key enablers in the development of next-generation wearable technologies.