Gas sensor based on MEMS cantilever resonator

konferenční sborník (ne článek)

angličtina

The aim of this work is about fabrication of MEMS gas sensor based on resonance cantilever beam. Cantilever will exploit piezoelectric effect; frequency of oscillation is measured with change of load of cantilever. Loading of cantilever is dependent on molecules bind on active layer which could be realized by using polymers, carbon nanotubes, etc. Sensor will be created as sandwich structure with silicon oxide passivation layer. Bottom electrode will be made from titanium. It is very important to reach required crystallographic structure of piezoelectric aluminum nitride layer with c-axis orientation which is in the middle of electrodes. This crystallographic structure is affected by crystallographic structure of titanium layer. Top electrode will be fabricated from gold. Width of cantilever beam will be in range from 50 µm to 200 µm and length will be in range from 100 µm to 800 µm with thickness about 2.5 µm. These dimensions will be optimized to find ideal resonance of cantilever. MEMS gas sensors can achieve very sensitive detection limit (several ppm) and very fast response (hundreds of milliseconds).

MEMS, piezoelectric effect, aluminum nitride, gas sensor

GABLECH, I.

23. 4. 2015

Masarykova univerzita

Brno

978-80-210-7825-3

CEITEC PhD Retreat

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