压电MEMS器件及其在生化传感器中的应用

Jian Lu, Takahisa Sagawa, Lulu Zhang, H. Takagi, Dong F. Wang, T. Itoh, R. Maeda
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引用次数: 5

摘要

MEMS谐振器作为生物化学传感器,通过谐振频移检测样品重量、分子吸附等,具有极高的灵敏度,其中压电转导在便携式应用中有效降低了功耗。然而,由于压电薄膜的能量耗散,其灵敏度下降。为了追求高q因子、高谐振频率和更好的器件灵敏度,综述了我国近年来开发的压电式MEMS谐振器,包括由PZT驱动并由压阻计检测的悬臂谐振器、由PZT驱动并由静电传感器检测的束流谐振器、由PZT驱动并由PZT驱动和检测的盘/环谐振器。对每个装置的性能进行了评估和研究。讨论了上述器件作为生化传感器的优缺点。
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Piezoelectric MEMS devices and its application as bio-chemical sensors
MEMS resonator exhibits extraordinary high sensitivity when used as bio-chemical sensor for detecting weight of specimen, adsorption of molecules, etc. by resonant frequency shift, in which piezoelectric transduction is effective to reduce power consumption for portable applications. However, the sensitivity is deteriorated by piezoelectric film due to its energy dissipation. This paper reviews our recent developed piezoelectric MEMS resonators, including cantilever actuated by PZT and detected by piezoresistive gauge, beam resonator actuated by PZT and detected by electrostatic sensor, disk/ring resonator actuated and detected by PZT, for the pursuit of high Q-factor, high resonant frequency, and better device sensitivity. The performance of each device was evaluated and investigated. The advantageous and weaknesses of above devices were discussed for application as bio-chemical sensors.
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