Designing, modeling and experimentally characterizing microstructures with a focus on their mechanical and motion aspects under linear and nonlinear behaviors
The possibility to delve into the nonlinear dynamics of micro and nano-oscillators and to more aggressively exploit nonlinear interactions
To achieve a synergetic impact on essential problems in science and engineering by applying micro/nano-technology to nonlinear dynamics and vice versa
To study complex nonlinear behaviors, employ micro/nanoscale structures particularly those not routinely observed at the macro scale. Then, harnessed intentional nonlinearity in small size to implement model shifting designs for various applications based on the detailed understanding of nonlinear characteristics
Developed nonlinear micro-resonators by utilizing their intrinsically nonlinear characteristics for sensing applications such as broadband resonance, frequency tunability, and instability. Also, I published in Scientific Reports, Nature and Micro and Nanoengineering, Nature
