Title :
Single-material MEMS using polycrystalline diamond
Author :
Cao, Zongliang ; Varney, Mike ; Aslam, Dean
Author_Institution :
Micro & Nano Technol. Lab., Michigan State Univ., East Lansing, MI, USA
Abstract :
The multi-material MEMS fabrication process often requires a larger number of masks making it more expensive as compared to single-material MEMS (SMM) technology. By varying the doping level in poly-C, semi-conducting, metallic and insulating (undoped) properties are achieved that are needed for poly-C SMM. However, the development of diamond-based SMM technology faces a number of challenges including (a) producing highly-insulating and highly-conducting poly-C films, (b) creating ohmic contacts and (c) patterning by dry etching of poly-C films grown on Si or SiO2. These challenges are addressed in this paper.
Keywords :
diamond; etching; masks; microfabrication; diamond-based SMM technology; dry etching; insulating properties; masks; metallic properties; multimaterial MEMS fabrication; ohmic contacts; poly-C films; poly-C properties; polycrystalline diamond; semiconducting properties; single-material MEMS technology; undoped properties; Boron; Conductivity; Fabrication; Hydrogen; Insulation; Micromechanical devices; Ohmic contacts; Probes; Semiconductor device doping; Semiconductor films;
Conference_Titel :
Micro Electro Mechanical Systems (MEMS), 2010 IEEE 23rd International Conference on
Conference_Location :
Wanchai, Hong Kong
Print_ISBN :
978-1-4244-5761-8
Electronic_ISBN :
1084-6999
DOI :
10.1109/MEMSYS.2010.5442569
