Vibrational IR MEMS sensor: Application of torsion-bars tension-enhanced by bio-nano crystallization for highly sensitive detection

2014 International Conference on Optical MEMS and Nanophotonics Pub Date : 2014-10-16 DOI:10.1109/OMN.2014.6924605
J. Jeong, S. Kumagai, I. Yamashita, Y. Uraoka, M. Sasaki
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Abstract

A thin-film MEMS infrared (IR) sensor using torsional resonators was developed to achieve high sensitivity. The torsional resonators consisted of bimaterial; a tense Si thin-film and a metal film for IR absorption. Light incidence induced out-of-plane displacement of the resonators thereby shifting the resonant frequency of torsional vibration. To improve the response of the frequency shift, tension in the Si thin-film was enhanced by metal-induced lateral crystallization using biomineralized Ni nanoparticles and a lightweight metal was deposited onto the resonator to obtain flat profile. Response to heat and light incidence were discussed for the fabricated devices.
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振动红外MEMS传感器:生物纳米结晶增强扭杆张力的高灵敏度检测应用
为实现高灵敏度,研制了一种基于扭转谐振腔的薄膜MEMS红外传感器。扭转谐振腔由双材料组成;一种紧张的硅薄膜和一种用于红外吸收的金属薄膜。光入射引起谐振器的面外位移,从而改变扭转振动的谐振频率。为了改善频移的响应,利用生物矿化镍纳米粒子通过金属诱导的横向结晶来增强Si薄膜中的张力,并在谐振器上沉积一种轻质金属以获得平坦的轮廓。讨论了器件对入射热和光的响应。
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2014 International Conference on Optical MEMS and Nanophotonics
2014 International Conference on Optical MEMS and Nanophotonics
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