- Site-Competition Epitaxy Controls Doping of Silicon Carbide 1994. [HTML
brief]
- Performance-Limiting Micropipe Defects Identified in SiC Wafers 1994. [HTML
brief]
- Silicon Carbide Junction Field-Effect Transistors Developed 1994. [HTML
brief]
- Silicon Carbide High-Temperature Power Rectifiers Fabricated and Characterized 1995. [HTML brief]
- Silicon Carbide Epitaxial Films Studied by Atomic Force Microscopy 1995. [HTML brief]
- Reliable Breakdown Obtained in Silicon Carbide Rectifiers 1996. [HTML brief]
- Silicon Carbide Junction Field Effect Transistor Digital Logic Gates Demonstrated at 600 C 1997. [HTML brief]
- Chemical Mechanical Polishing of Silicon Carbide 1997. [HTML brief]
- Silicon Carbide Mixers Demonstrated to Improve the Interference Immunity of Radio-Based Aircraft Avionics 1997. [HTML brief]
- Deep Etching Process Developed for the Fabrication of Silicon
Carbide Microsystems 1999. [HTML brief]
- Packaging Technology Developed for High-Temperature SiC Sensors and Electronics 1999. [HTML brief]
- Temperature Distribution Within a Defect-Free Silicon Carbide Diode Predicted by a Computational Model 1999. [HTML brief]
- Thermally Stable Ohmic Contacts on Silicon Carbide Developed for High-Temperature
Sensors and Electronics 2000. [HTML brief]
- Packaging Technology Developed for High-Temperature Silicon Carbide Microsystems 2000. [HTML brief]
- Bulk Micromachined 6H-SiC High-g Piezoresistive Accelerometer Fabricated and Tested 2001. [HTML brief]
- Advanced Packaging Technology Used in Fabricating a High-Temperature Silicon Carbide Pressure Sensor 2002. [HTML brief]
- Packaging Technology Designed, Fabricated, and Assembled for High-Temperature SiC Microsystems 2002. [HTML brief]
- Silicon Carbide Nanotube Synthesized 2002. [HTML
brief]
- Microsystems Fabrication Laboratory-New Class 100 Cleanroom Completed and Certified 2002. [HTML brief]
- Improved Silicon Carbide Crystals Grown From Atomically Flat Surfaces 2002. [HTML brief]
- Web Growth Used to Confine Screw Dislocations to Predetermined Lateral Positions in 4H-SiC Epilayers 2003. [HTML brief]
- New Deep Reactive Ion Etching Process Developed for the Microfabrication of Silicon Carbide 2004. [HTML brief]
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