Title :
AFM cantilever with integrated piezoelectric thin film for micro-actuation
Author :
Viannie, L.R. ; Joshi, S. ; Jayanth, G.R. ; Rajanna, K. ; Radhakrishna, V.
Author_Institution :
Dept. of Instrum. & Appl. Phys., Indian Inst. of Sci., Bangalore, India
Abstract :
This work presents micro-actuation of atomic force microscopy (AFM) cantilevers using piezoelectric Zinc Oxide (ZnO) thin film. In tapping mode AFM, the cantilever is driven near its resonant frequency by an external oscillator such as piezotube or stack of piezoelectric material. Use of integrated piezoelectric thin film for AFM cantilever eliminates the problems like inaccurate tuning and unwanted vibration modes. In this work, silicon AFM cantilevers were sputter deposited with ZnO piezoelectric film along with top and bottom metallic electrodes. The self-excitation of the ZnO coated AFM cantilever was studied using Laser Doppler Vibrometer (LDV). At its resonant frequency (227.11 kHz), the cantilever displacement varies linearly with applied excitation voltage. We observed an increase in the actuation response (131nm/V) due to improved quality of ZnO films deposited at 200 °C.
Keywords :
II-VI semiconductors; atomic force microscopy; cantilevers; electrodes; microactuators; oscillators; piezoelectric thin films; vibration measurement; wide band gap semiconductors; zinc compounds; AFM cantilever microactuation; LDV; ZnO; atomic force microscopy cantilever microactuation; coated AFM cantilever self-excitation; external oscillator; frequency 227.11 kHz; integrated piezoelectric thin film; laser Doppler vibrometer; metallic electrodes; piezoelectric material; piezoelectric zinc oxide thin film; piezotube; sputter deposition; temperature 200 degC; vibration modes; Actuators; Electrodes; Films; Force; Imaging; Resonant frequency; Zinc oxide;
Conference_Titel :
Sensors, 2012 IEEE
Conference_Location :
Taipei
Print_ISBN :
978-1-4577-1766-6
Electronic_ISBN :
1930-0395
DOI :
10.1109/ICSENS.2012.6411278
