Avoidance of Stiction in the Release of Highly Boron Doped Micro-actuators Fabricated using BESOI Substrates

Rosa, MA; Dimitrijev, S; Harrison, HB

doi:10.1016/S0026-2714(98)00195-4

Author(s)

Rosa, MA

Dimitrijev, S

Harrison, HB

Griffith University Author(s)

Harrison, Barry B.

Dimitrijev, Sima

Year published

1999

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Abstract

This paper presents a new technique which has been successfully applied to the fabrication of micromachined components to avoid the ‘device stiction’ often encountered during the final processing steps of micro-fabrication. Based on the use of BESOI substrates, this technique involves the heavy boron doping of the final processed structure, followed by a timed wet etch which releases the micromachined device by controllably lowering the undoped Si substrate beneath it.This paper presents a new technique which has been successfully applied to the fabrication of micromachined components to avoid the ‘device stiction’ often encountered during the final processing steps of micro-fabrication. Based on the use of BESOI substrates, this technique involves the heavy boron doping of the final processed structure, followed by a timed wet etch which releases the micromachined device by controllably lowering the undoped Si substrate beneath it.
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Journal Title

Microelectronics Reliability

Volume

Issue

DOI

https://doi.org/10.1016/S0026-2714(98)00195-4

Subject

Electronics, sensors and digital hardware

Publication URI

http://hdl.handle.net/10072/122941

Collection

Journal articles