This paper introduces novel materials for wearable systems, enhancing flexibility, durability, and functionality across applications. By carefully selecting advanced materials, we developed devices that adapt well to varied conditions, offering improved comfort, resilience, and efficient performance for next-generation wearables.

Our work demonstrates how unique substrates and functional coatings boost power management, mechanical flexibility, and responsiveness. These materials allow wearables to be lightweight and low-profile while delivering reliable performance under continuous use. Testing confirmed their long-term durability and adaptability, essential for real-world applications.

I contributed to designing the power systems, optimizing energy use for these materials in wearable contexts. This work highlights the potential of novel materials to transform wearables, enabling devices that are efficient, integrated, and sustainable in everyday design.