Our research focuses on developing and understanding two-dimensional (2D) material–based nanoelectromechanical systems (NEMS) for next-generation sensing and signal processing. We design and fabricate ultrathin resonators and vibrating channel transistors that integrate mechanical, electrical, and optical functionalities at the atomic scale. Using materials such as graphene, MoS2, black phosphorus and MnPS3, we explore room temperature infrared detection, optomechanical coupling, and spin dynamics in quantum regime. These efforts combine nanofabrication, precision measurements, and multiscale modeling to advance fundamental understanding and enable emerging applications in quantum materials and nanoscale sensing.
