Title :
Cantilever-based resonant gas sensors with integrated recesses for localized sensing layer deposition
Author :
Carron, C. ; Getz, P. ; Su, Jun-Ji ; Gottfried, David S. ; Brand, Oliver ; Josse, Fabien ; Heinrich, Stephen M.
Author_Institution :
Sch. of Electr. & Comput. Eng., Georgia Inst. of Technol., Atlanta, GA, USA
Abstract :
This work presents mass-sensitive hammerhead resonators with integrated recesses as a gas-phase chemical microsensor platform. Recesses are etched into the head region of the resonator to locally deposit chemically sensitive polymers by ink-jet printing. This permits the sensing films to be confined to areas that (a) are most effective in detecting mass loading and (b) are not strained during the in-plane vibrations of the resonator. As a result of the second point, even 5-μm thick polymer coatings on resonators with a 9-12 μm silicon thickness barely affect the Q-factor in air. This translates into higher frequency stability and ultimately higher sensor resolution compared to uniformly coated devices.
Keywords :
cantilevers; elemental semiconductors; gas sensors; microsensors; polymers; resonators; silicon; Q-factor; Si; cantilever-based resonant gas sensors; chemically sensitive polymers; films; frequency stability; gas-phase chemical microsensor platform; in-plane vibrations; ink-jet printing; integrated recesses; localized sensing layer deposition; mass-sensitive hammerhead resonators; polymer coatings; sensor resolution; size 5 mum to 12 mum; Chemicals; Films; Frequency measurement; Plastics; Q-factor; Resonant frequency; Sensitivity;
Conference_Titel :
SENSORS, 2013 IEEE
Conference_Location :
Baltimore, MD
DOI :
10.1109/ICSENS.2013.6688335
