Stiction-free poly-SiGe resonators for monolithic integration of biosensors with CMOS
Solid-State Sensors, Actuators and Microsystems Conference(2011)
Abstract
This work presents the first fabricated and characterized MEMS in polycrystalline silicon-germanium (poly-SiGe) for biosensing applications. The devices, clamped-clamped microresonators, combine the possibility of above-IC MEMS-CMOS integration with a stiction-free design that enables biomolecule mass sensing in air. By perforating the resonant beam with square or hexagonal holes, a higher surface-to-volume ratio is achieved leading to an increased relative frequency shift for a certain analyte surface density. A minimum detectable mass of ~2pg in air was calculated. A mass sensing test was performed on these perforated devices by immobilization of biotin and the extraction of the resulting resonance frequency shift.
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Key words
cmos integrated circuits,ge-si alloys,biomems,biosensors,mems-cmos integration,sige,analyte surface density,biomolecule mass sensing,biotin,mass sensing test,monolithic integration,relative frequency shift,resonant beam,stiction-free poly-silicon-germanium resonator,surface-to-volume ratio,resonators,electrodes,resonant frequency,surface to volume ratio,sensors
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