Title :
Stability of a RF sputtered ZnO solidly mounted resonator sensor in varying temperature and conductivity environments
Author :
Dickherber, Anthony ; Corso, Christopher D. ; Hunt, William
Author_Institution :
Georgia Inst. of Technol., Atlanta
Abstract :
It has been demonstrated that thickness shear mode acoustic wave devices have been extremely useful for liquid phase sensing applications, especially as biosensors. The quartz crystal microbalance is likely the strongest demonstration of this application to date. Recently, we reported a ZnO-based TSM device that is easily fabricated and operates at significantly higher frequencies than the QCM. To further validate the usefulness of the ZnO resonator as a strong candidate for biosensor applications, we report the stability of the device over varying temperature and sample conductivity. A modest thermal coefficient of resonant frequency is reported at ~25 ppm/degC. Further, it is demonstrated that the resonator exhibits reasonable stability over a range of sample conductivities (0.0 to 0.9 % wt/vol NaCl in DI H2O).
Keywords :
II-VI semiconductors; acoustic resonators; biosensors; bulk acoustic wave devices; microbalances; quartz; sputter deposition; zinc compounds; RF sputtered solidly mounted resonator sensor; ZnO; biosensors; liquid phase sensing applications; quartz crystal microbalance; resonant frequency; thermal coefficient; thickness shear mode acoustic wave devices; Acoustic devices; Biosensors; Optical resonators; Optical surface waves; Radio frequency; Sputtering; Stability; Temperature sensors; Thermal conductivity; Zinc oxide;
Conference_Titel :
Sensors, 2007 IEEE
Conference_Location :
Atlanta, GA
Print_ISBN :
978-1-4244-1261-7
Electronic_ISBN :
1930-0395
DOI :
10.1109/ICSENS.2007.4388684
