Title :
Polymer-Based Ion Trap Chemical Sensor
Author :
Yu, Meng ; Fico, Miriam ; Kothari, Sameer ; Ouyang, Zheng ; Chappell, William J.
Author_Institution :
Sch. of Electr. & Comput. Eng., Purdue Univ., West Lafayette, IN
Abstract :
Ion traps are widely used in chemical analysis, and they are especially important in current attempts to miniaturize mass spectrometers to create portable instruments. The ultimate aim is to build a handheld device that would require a smaller mass analyzer. To accomplish this task, a robust precision fabrication procedure is desired. In this paper, the authors report a new approach to fabricating ion traps using stereolithography apparatus (SLA), which provides precision monolithic fabrication. An SLA-fabricated rectilinear ion trap, which employs a very simple electrode geometry, is shown to provide detection capabilities within a useful mass range encompassing that of interest in the detection of numerous volatile organic compounds, including those relevant to homeland security applications. Single small ion traps and integrated trap arrays can be made through this approach, which allows higher operating pressures and reduced power requirements
Keywords :
chemical sensors; mass spectrometer accessories; mass spectroscopic chemical analysis; particle traps; polymers; stereolithography; chemical analysis; homeland security applications; integrated trap arrays; mass analyzer; mass spectrometers; polymer-based ion trap chemical sensor; precision monolithic fabrication; rectilinear ion trap; stereolithography apparatus; volatile organic compounds; Chemical analysis; Chemical sensors; Fabrication; Gas detectors; Handheld computers; Instruments; Mass spectroscopy; Polymers; Robustness; Stereolithography; Ion trap; mass spectrometry; polymer; rectilinear ion trap (RIT); stereolithography;
Journal_Title :
Sensors Journal, IEEE
DOI :
10.1109/JSEN.2006.883853
