Microfluidics based on ZnO/nanocrystalline diamond surface acoustic wave devices

Surface acoustic wave (SAW) devices with 64 μm wavelength were fabricated on a zinc oxide (ZnO) film deposited on top of an ultra-smooth nanocrystalline diamond (UNCD) layer. The smooth surface of the UNCD film allowed the growth of the ZnO film with excellent c-axis orientation and low surface roug...

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Published inBiomicrofluidics Vol. 6; no. 2; pp. 024105 - 024105-11
Main Authors Fu, Y. Q., Garcia-Gancedo, L., Pang, H. F., Porro, S., Gu, Y. W., Luo, J. K., Zu, X. T., Placido, F., Wilson, J. I. B., Flewitt, A. J., Milne, W. I.
Format Journal Article
LanguageEnglish
Published United States American Institute of Physics 01.06.2012
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Summary:Surface acoustic wave (SAW) devices with 64 μm wavelength were fabricated on a zinc oxide (ZnO) film deposited on top of an ultra-smooth nanocrystalline diamond (UNCD) layer. The smooth surface of the UNCD film allowed the growth of the ZnO film with excellent c-axis orientation and low surface roughness, suitable for SAW fabrication, and could restrain the wave from significantly dissipating into the substrate. The frequency response of the fabricated devices was characterized and a Rayleigh mode was observed at ∼65.4 MHz. This mode was utilised to demonstrate that the ZnO/UNCD SAW device can be successfully used for microfluidic applications. Streaming, pumping, and jetting using microdroplets of 0.5 and 20 μl were achieved and characterized under different powers applied to the SAW device, focusing more on the jetting behaviors induced by the ZnO SAW.
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Author to whom correspondence should be addressed. Electronic mail: Richard.fu@uws.ac.uk.
ISSN:1932-1058
1932-1058
DOI:10.1063/1.3699974