A novel modular fabrication process for bulk integrated single-crystal-silicon microstructures designed and manufactured in a post-CMOS process is presented in this paper, which can increase the accuracy and reliability of MEMS sensors as well as lower the fabricating cost. The process involves the conventional CMOS circuit formation, the electrical isolation trench etching and refilling, backside silicon etching, interconnection formation, and structure releasing. The performance of integrated Schottky diodes was tested to have reverse leakage of 10-7A, and breakdown voltage of 57V. A new method for fabricating void-free isolation trenches is also developed. The resistance of void-free isolation trench is more than 1012 ??. The influence o...
Surface-micromachined silicon inertial sensors are limited to relatively high-G applications in part...
This work reports on studies and the fabrication process development of micromechanical silicon-on-i...
[[abstract]]This work investigates a post-CMOS (complementary metal-oxide semiconductor) bulk microm...
A novel modular fabrication process for bulk integrated single-crystal-silicon microstructures desig...
We report a CMOS compatible bulk micromachining method for the integration of high-aspectratio singl...
A bulk micromachining technology for fabrication of micro electro mechanical systems (MEMS) in a sta...
A post CMOS fabrication process for integrating high aspect ratio MEMS devices with signal processin...
This paper presents a novel MEMS fabrication technology based on standard single crystal silicon waf...
This paper reports an improved method of fabricating ultra deep (40-120??m) and high aspect ratio (m...
A modular approach, based on work done at Sandia National Laboratories, for the monolithic integrati...
This paper reports an improved method of fabricating ultra deep (40-120 mu m) and high aspect ratio ...
We present a bulk micromachining technology, based on vertical trench isolation, for fabrication of ...
A new technology for the fabrication of high-aspect-ratio singel crystal silicon MEMS on standard si...
Monolithic integration of CMOS and MEMS is quickly proving to be a viable asset to current complex s...
This paper presents a new method for the CMOS compatible fabrication of microchannels integrated int...
Surface-micromachined silicon inertial sensors are limited to relatively high-G applications in part...
This work reports on studies and the fabrication process development of micromechanical silicon-on-i...
[[abstract]]This work investigates a post-CMOS (complementary metal-oxide semiconductor) bulk microm...
A novel modular fabrication process for bulk integrated single-crystal-silicon microstructures desig...
We report a CMOS compatible bulk micromachining method for the integration of high-aspectratio singl...
A bulk micromachining technology for fabrication of micro electro mechanical systems (MEMS) in a sta...
A post CMOS fabrication process for integrating high aspect ratio MEMS devices with signal processin...
This paper presents a novel MEMS fabrication technology based on standard single crystal silicon waf...
This paper reports an improved method of fabricating ultra deep (40-120??m) and high aspect ratio (m...
A modular approach, based on work done at Sandia National Laboratories, for the monolithic integrati...
This paper reports an improved method of fabricating ultra deep (40-120 mu m) and high aspect ratio ...
We present a bulk micromachining technology, based on vertical trench isolation, for fabrication of ...
A new technology for the fabrication of high-aspect-ratio singel crystal silicon MEMS on standard si...
Monolithic integration of CMOS and MEMS is quickly proving to be a viable asset to current complex s...
This paper presents a new method for the CMOS compatible fabrication of microchannels integrated int...
Surface-micromachined silicon inertial sensors are limited to relatively high-G applications in part...
This work reports on studies and the fabrication process development of micromechanical silicon-on-i...
[[abstract]]This work investigates a post-CMOS (complementary metal-oxide semiconductor) bulk microm...