Title :
High-Speed MEMS-Based Gas Chromatography
Author :
Agah, Masoud ; Lambertus, Gordon Randall ; Sacks, Richard ; Wise, Kensall
Author_Institution :
Dept. of Electr. & Comput. Eng., Virginia Polytech. Inst. & State Univ.
Abstract :
This paper reports microfabricated silicon-glass separation columns for high-speed micro gas chromatography (muGC) systems. The microfabricated columns are integrated with resistive heaters and temperatures sensors and capacitive pressure sensors to allow temperature and pressure programming and flow control and to achieve reproducible separations in a muGC system. These 25-cm-long, 150-mum-wide, and 250-mum-deep columns are fabricated on a 1.2-cm square die using a silicon-on-glass dissolved wafer process. Programmed with temperature ramps of 10 degC/s, the low-mass columns separate eleven-component gaseous mixtures in less than 10 s, including alkanes from C5 to C16 and simulants for C-4, TNT, sarin, and mustard gas. When used in arrayed architectures, these MEMS columns should allow high-speed analysis without sacrificing separation efficiency
Keywords :
chromatography; glass; high-speed techniques; microsensors; silicon; 1.2 cm; 150 micron; 25 cm; 250 micron; MEMS based gas chromatography; capacitive pressure sensors; flow control; micro gas chromatography systems; microfabrication; resistive heaters; separation columns; silicon-on-glass; temperatures sensors; Chemistry; Control systems; Gas chromatography; Heart; Instruments; Micromechanical devices; Pressure control; Sensor systems; Temperature sensors; Thermal sensors; Gas chromatography (GC) matrix; MEMS; high-speed; micro gas chromatography; parallel GC; separation column;
Journal_Title :
Microelectromechanical Systems, Journal of
DOI :
10.1109/JMEMS.2006.879708
