Design and Fabrication of a Novel T-Shaped Piezoelectric ZnO Cantilever Sensor

Abstract: A novel T-shaped piezoelectric ZnO cantilever sensor for chem/bio-detection is designed and fabricated with MEMS technology. By using Rayleigh-Ritz method, the fundamental resonant frequency formula of T-shaped cantilevers is deduced for the first time and is validated by simulation results and experimental results. From this formula, we can easily find the superiority of adopting T-shape for the cantilevers. The complete process of the cantilever sensor is then successfully developed. The cantilever sensor is… Show more

“…To detect the presence of pathogens in aqueous samples, QCM with immobilized antibody to pathogens have been successfully utilized [113]. Recently, the T-shaped piezoelectric zinc oxide (ZnO) microcantilever was developed for bio-chemical sensing [114]. The T-shaped design showed much higher sensitivity at the resonant frequency than the normal rectangular design.…”

Relaxor-PT Single Crystal Piezoelectric Sensors

“…To detect the presence of pathogens in aqueous samples, QCM with immobilized antibody to pathogens have been successfully utilized [113]. Recently, the T-shaped piezoelectric zinc oxide (ZnO) microcantilever was developed for bio-chemical sensing [114]. The T-shaped design showed much higher sensitivity at the resonant frequency than the normal rectangular design.…”

Relaxor-PT Single Crystal Piezoelectric Sensors

Sensitivity Analysis of Micro-Mass Optical MEMS Sensor for Biomedical IoT Devices

Design  a T-Shape Cantilever Beam Using by Scilab and COMSOL