Title :
50 nm thick AlN resonant micro-cantilever for gas sensing application
Author :
Ivaldi, P. ; Abergel, J. ; Arndt, G. ; Robert, P. ; Andreucci, P. ; Blanc, H. ; Hentz, S. ; Defay, E.
Author_Institution :
LETI-MINATEC, CEA, Grenoble, France
Abstract :
We present the fabrication and characterization of a 90μm × 40μm × 885nm piezoelectric micro-cantilever resonator containing a 50nm thick Aluminum Nitride (AlN) piezoelectric film for transduction. Material characterizations demonstrate that our AlN deposition technique enables the fabrication of ultra-thin films with high piezoelectric coefficient e31 = 0.78C.m-2. Fully electrical actuation and detection of the cantilever resonance behavior is evidenced using onchip electric bridge and instrumented probe trans-impedance amplifier. Finally, based on Allan deviation measurement results, we demonstrate the potential of this cantilever for gas detection with an expected limit of detection equal to 70zg.μm-2.
Keywords :
aluminium compounds; cantilevers; crystal resonators; gas sensors; micromechanical devices; operational amplifiers; piezoelectric thin films; thin film sensors; aluminum nitride piezoelectric film; electrical actuation; gas detection; gas sensing application; on-chip electric bridge; piezoelectric coefficient; piezoelectric microcantilever resonator fabrication; probe transimpedance amplifier; size 50 nm; thick AlN resonant microcantilever; ultra-thin film; Bridge circuits; Electrodes; Fabrication; Nanoelectromechanical systems; Physics; Resonant frequency; Sensors;
Conference_Titel :
Frequency Control Symposium (FCS), 2010 IEEE International
Conference_Location :
Newport Beach, CA
Print_ISBN :
978-1-4244-6399-2
DOI :
10.1109/FREQ.2010.5556370
