Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
1787970 | Current Applied Physics | 2006 | 5 Pages |
Abstract
The possibility of realizing femtogram mass detection using a piezoresistive microcantilever has been studied for bioscience applications. The mass detection was undertaken by employing the resonance frequency shift of a cantilever. In the experiments, we measured the change in the mass of adsorbed water molecules and the reaction between an antigen and an antibody on the cantilever from the resonance frequency shift. We used a prototype and a commercially available piezoresistive cantilever. The sensor was formed by using Wheatstone bridge circuits, a positive feedback controller, a piezoactuator and a phase-locked loop (PLL) demodulator. A mass sensitivity of around 200Â fg/Hz and a noise level of about 12Â fg were estimated experimentally from the water molecules adsorbed on the cantilever. We also confirmed that the sensor could detect an antigen and antibody reaction in an egg allergy test.
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Condensed Matter Physics
Authors
Sumio Hosaka, Takafumi Chiyoma, Ayumi Ikeuchi, Haruki Okano, Hayato Sone, Takashi Izumi,