论文信息 - Photoelectrochemical etching to fabricate single-crystal SiC MEMS for harsh environments

Photoelectrochemical etching to fabricate single-crystal SiC MEMS for harsh environments

In this paper, we report on a novel surface micromachining process technology for the fabrication of microelectromechanical systems in SiC. Single-crystal SiC suspended microstructures were fabricated using a dopant-selective photoelectrochemical etching process, which allows for undercutting the p-SiC layer by rapid lateral etching of the underlying n-SiC substrate. The selective etching was achieved by applying a bias which employs the different flat-band potentials of n-SiC and p-SiC in the KOH solution. Single-crystal SiC MEMS developed in this study fully exploits the superior mechanical and biocompatible properties of SiC and has the capability of monolithic integration with electron devices and circuits, and therefore, is promising for sensing and actuating operations in biomedical, high-temperature and harsh environments.

Chih-Fang Huang | Feng Zhao | Mohammad M. Islam | Chih-Fang Huang | F. Zhao

[1] Darrin J. Young,et al. Single crystal 6H-SiC MEMS fabrication based on smart-cut technique , 2005 .

[2] J. Kelly,et al. Photoelectrochemistry of 4H-SiC in KOH solutions , 2007 .

[3] O. Ambacher,et al. Group III nitride and SiC based MEMS and NEMS: materials properties, technology and applications , 2007 .

[4] K. Aguir,et al. Alternating current investigation and modeling of the temperature and ozone effects on the grains and the grain boundary contributions to the WO3 sensor responses , 2009 .

[5] Richard M. Osgood,et al. Dopant-selective etch stops in 6H and 3C SiC , 1997 .

[6] J. Engel,et al. The fabrication of suspended micromechanical structures from bulk 6H-SiC using an ICP-RIE system , 2006 .