Explores thermal radiation, convection, and heat transfer mechanisms in microsystems, including simulations and design optimizations for thermal sensors.
Explores dynamics of thermal effects, including time constants, conductivity, and dissipated power, with applications in inkjet heaters, gas sensing, DNA amplification, and actuator technology.
Explores MEMS resonators and oscillators, CMOS integration, frequency stability, temperature drift compensation, resonator packaging, and advanced resonator structures.
Explores the simulation of a microfluidic H-Filter for molecular analyte extraction without membrane filters, focusing on diffusion control and concentration effects.
