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Lab Chip


Title:Smart multi-channel two-dimensional micro-gas chromatography for rapid workplace hazardous volatile organic compounds measurement
Author(s):Liu J; Seo JH; Li Y; Chen D; Kurabayashi K; Fan X;
Address:"Department of Biomedical Engineering, University of Michigan, Ann Arbor, Michigan 48109, USA"
Journal Title:Lab Chip
Year:2013
Volume:20130109
Issue:5
Page Number:818 - 825
DOI: 10.1039/c2lc41159h
ISSN/ISBN:1473-0189 (Electronic) 1473-0189 (Linking)
Abstract:"We developed a novel smart multi-channel two-dimensional (2-D) micro-gas chromatography (muGC) architecture that shows promise to significantly improve 2-D muGC performance. In the smart muGC design, a non-destructive on-column gas detector and a flow routing system are installed between the first dimensional separation column and multiple second dimensional separation columns. The effluent from the first dimensional column is monitored in real-time and decision is then made to route the effluent to one of the second dimensional columns for further separation. As compared to the conventional 2-D muGC, the greatest benefit of the smart multi-channel 2-D muGC architecture is the enhanced separation capability of the second dimensional column and hence the overall 2-D GC performance. All the second dimensional columns are independent of each other, and their coating, length, flow rate and temperature can be customized for best separation results. In particular, there is no more constraint on the upper limit of the second dimensional column length and separation time in our architecture. Such flexibility is critical when long second dimensional separation is needed for optimal gas analysis. In addition, the smart muGC is advantageous in terms of elimination of the power intensive thermal modulator, higher peak amplitude enhancement, simplified 2-D chromatogram re-construction and potential scalability to higher dimensional separation. In this paper, we first constructed a complete smart 1 x 2 channel 2-D muGC system, along with an algorithm for automated control/operation of the system. We then characterized and optimized this muGC system, and finally employed it in two important applications that highlight its uniqueness and advantages, i.e., analysis of 31 workplace hazardous volatile organic compounds, and rapid detection and identification of target gas analytes from interference background"
Keywords:"Air Pollution, Indoor/*analysis Algorithms Chromatography, Gas/instrumentation/*methods Dimethylpolysiloxanes/chemistry Gases/*analysis Gold/chemistry Volatile Organic Compounds/*analysis;"
Notes:"MedlineLiu, Jing Seo, Jung Hwan Li, Yubo Chen, Di Kurabayashi, Katsuo Fan, Xudong eng Research Support, Non-U.S. Gov't Research Support, U.S. Gov't, Non-P.H.S. England 2013/01/11 Lab Chip. 2013 Mar 7; 13(5):818-25. doi: 10.1039/c2lc41159h. Epub 2013 Jan 9"

 
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