Research Projects
Demonstrating the innovative research and development efforts driving advancements in wearable electronics, functional materials, and advanced manufacturing. Each project reflects a commitment to bridging technology and human health through interdisciplinary collaboration and cutting-edge science.
On-scalp digital printing of custom-designed, temporary-tattoo-like EEG sensors to enable comfortable, long-term, and high-quality brain activity monitoring.
A self-sustainable smart pool monitoring system that uses a novel Brachistochrone bowl-inspired hybrid nanogenerator to power a suite of physio-electrochemical sensors for real-time water quality monitoring.
A project focused on developing novel MXene-based nanocomposites to significantly enhance the performance, durability, and applicability of Triboelectric Nanogenerators (TENGs) for self-powered electronics and sensors.
A highly sensitive, self-powered triboelectric flex sensor inspired by human skin, designed for gesture monitoring and human-machine interfaces.
A series of projects focused on developing novel hybrid nanogenerators to efficiently scavenge biomechanical energy from diverse human motions for powering wearable and portable electronics.