Grantee Research Project Results
Publications Details for Grant Number R835644
3-dimensional Micro-gas Chromatography Device for Rapid and Sensitive Indoor Chemical Exposure Analysis
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Reference Type | Reference Title | Journal | Author | Citation | Progress Report Year | Document Sources |
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Journal Article | In situ calibration of micro-photoionization detectors in a multi-dimensional micro-gas chromatography system. | ANALYST | Lee J, Zhou M, Zhu H, Nidetz R, Kurabayashi K, Fan X | Lee J, Zhou M, Zhu H, Nidetz R, Kurabayashi K, Fan X. In situ calibration of micro-photoionization detectors in a multi-dimensional micro-gas chromatography system. Analyst 2016;141(13):4100-4107. |
R835644 (2016) R835644 (Final) |
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Journal Article | Fully automated portable comprehensive 2-dimensional gas chromatography device. | ANALYTICAL CHEMISTRY | Lee J, Zhou M, Zhu H, Nidetz R, Kurabayashi K, Fan X | Lee J, Zhou M, Zhu H, Nidetz R, Kurabayashi K, Fan X. Fully automated portable comprehensive 2-dimensional gas chromatography device. Analytical Chemistry 2016;88(20):10266-10274. |
R835644 (2016) R835644 (Final) |
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Journal Article | A fully automated portable gas chromatography system for sensitive and rapid quantification of volatile organic compounds in water. | RSC ADVANCES | Zhou M, Lee J, Zhu H, Nidetz R, Kurabayashi K, Fan X | Zhou M, Lee J, Zhu H, Nidetz R, Kurabayashi K, Fan X. A fully automated portable gas chromatography system for sensitive and rapid quantification of volatile organic compounds in water. RSC Advances 2016;6(55):49416-49424. |
R835644 (2016) R835644 (Final) |
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Journal Article | Flow‐through microfluidic photoionization detectors for rapid and highly sensitive vapor detection. | None | Zhu H, Nidetz R, Zhou M, Lee J, Buggaveeti S, Kurabayashi K, Fan X | Zhu H, Nidetz R, Zhou M, Lee J, Buggaveeti S, Kurabayashi K, Fan X. Flow‐through microfluidic photoionization detectors for rapid and highly sensitive vapor detection. Lab on a Chip 2015;15:3021‐3029. |
R835644 (2015) R835644 (Final) |
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Journal Article | Low-power miniaturized helium dielectric barrier discharge photoionization detectors for highly sensitive vapor detection. | None | Zhu H, Zhou M, Lee J, Nidetz R, Kurabayashi K, Fan X | Zhu H, Zhou M, Lee J, Nidetz R, Kurabayashi K, Fan X. Low-power miniaturized helium dielectric barrier discharge photoionization detectors for highly sensitive vapor detection. Analytical Chemistry 2016;88(17):8780-8786. |
R835644 (2016) R835644 (Final) |
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Patent/Patent Application | Miniaturized helium discharge photo-ionization detector. | None | Fan X, Kurabayashi K, Richardson RJ | Fan X, Kurabayashi K, Richardson RJ. Miniaturized helium discharge photo-ionization detector. Provisional Patent Application No. 62/378,770. |
R835644 (2016) |
not available |
Patent/Patent Application | Devices and methods for adaptive micro-gas chromatography. | None | Fan X, Gianchandani YB, Liu J | Fan X, Gianchandani YB, Liu J. Devices and methods for adaptive micro-gas chromatography. U.S. Patent No. 9,341,604, May 17, 2016. |
R835644 (2016) |
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Patent/Patent Application | Microfluidic photoionization detector. | None | Fan X, Zhu H, Nidetz R, Kurabayashi K, Zhou M, Lee J, Woodside-Wojtala J | Fan X, Zhu H, Nidetz R, Kurabayashi K, Zhou M, Lee J, Woodside-Wojtala J. Microfluidic photoionization detector. International Patent Application No. PCT/US2016/030798, October 11, 2016. |
R835644 (2015) R835644 (2016) |
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Patent/Patent Application | Miniaturized discharge photoionization detector. | None | Fan X, Zhu H, Kurabayashi K | Fan X, Zhu H, Kurabayashi K. Miniaturized discharge photoionization detector. Patent Application PCT/US2017/048422, 2017. |
R835644 (Final) |
not available |
Patent/Patent Application | Multi-channel, multi-dimensional comprehensive gas chromatography. | None | Fan X, Lee J, Zhou M, Zhu H, Kurabayashi K | Fan X, Lee J, Zhou M, Zhu H, Kurabayashi K. Multi-channel, multi-dimensional comprehensive gas chromatography. Provisional Patent US 62/403,830, 2017. |
R835644 (Final) |
not available |
Presentation | Portable multi-dimensional gas chromatography device for rapid field analysis of chemical compounds. | None | Fan X, Lee J, Zhu H, Zhou M, Nidetz R, Kurabayashi K, Sayler S, Neitzel R, Richardson RJ | Fan X, Lee J, Zhu H, Zhou M, Nidetz R, Kurabayashi K, Sayler S, Neitzel R, Richardson RJ. Portable multi-dimensional gas chromatography device for rapid field analysis of chemical compounds. Presented at Transducers 2017, Kaohsiung, Taiwan, June 18-22, 2017. |
R835644 (Final) |
not available |
Presentation | Multi-dimensional micro gas chromatography device for the rapid and sensitive analysis of volatile organic compounds. | None | Lee J, Zhou M, Zhu H, Nidetz R, Kurabayashi K, Fan X | Lee J, Zhou M, Zhu H, Nidetz R, Kurabayashi K, Fan X. Multi-dimensional micro gas chromatography device for the rapid and sensitive analysis of volatile organic compounds. Presented at Pittcon 2016, Atlanta, GA, March 6-10, 2016. |
R835644 (2015) R835644 (2016) |
not available |
Presentation | Fully automated portable comprehensive 2-dimensional gas chromatography device. | None | Lee J, Zhou M, Zhu H, Nidetz R, Kurabayashi K, Fan X | Lee J, Zhou M, Zhu H, Nidetz R, Kurabayashi K, Fan X. Fully automated portable comprehensive 2-dimensional gas chromatography device. Presented at Pittcon 2017, Chicago, IL, March 5-9, 2017. |
R835644 (Final) |
not available |
Presentation | On-site monitoring of occupational exposure to volatile organic compounds by a portable comprehensive 2-dimensional gas chromatography device. | None | Lee J, Sayler S, Zhou M, Zhu H, Richardson RJ, Neitzel RL, Kurabayashi K, Fan X | Lee J, Sayler S, Zhou M, Zhu H, Richardson RJ, Neitzel RL, Kurabayashi K, Fan X. On-site monitoring of occupational exposure to volatile organic compounds by a portable comprehensive 2-dimensional gas chromatography device. Presented at the 27th Annual Meeting of the International Society of Exposure Science, Research Triangle Park, NC, October 15-19, 2017. |
R835644 (Final) |
not available |
Presentation | Heart-cutting multidimensional micro gas chromatography (µGC) system for breath analysis. | None | Zhou M, Lee J, Zhu H, Nidetz R, Kurabayashi K, Ward K, Fan X | Zhou M, Lee J, Zhu H, Nidetz R, Kurabayashi K, Ward K, Fan X. Heart-cutting multidimensional micro gas chromatography (µGC) system for breath analysis. Presented at Pittcon 2016, Atlanta, GA, March 6-10, 2016. |
R835644 (2015) R835644 (2016) |
not available |
Presentation | A fully automated portable gas chromatography for sensitive and rapid quantification of volatile organic compounds in water. | None | Zhou M, Lee J, Zhu H, Nidetz R, Kurabayashi K, Fan X | Zhou M, Lee J, Zhu H, Nidetz R, Kurabayashi K, Fan X. A fully automated portable gas chromatography for sensitive and rapid quantification of volatile organic compounds in water. Presented at Pittcon 2017, Chicago, IL, March 5-9, 2017. |
R835644 (Final) |
not available |
Presentation | Flow-through microfluidic photoionization detectors for rapid and highly sensitive vapor detection. | None | Zhu H, Nidetz R, Zhou M, Lee J, Buggaveeti S, Kurabayashi K, Fan X | Zhu H, Nidetz R, Zhou M, Lee J, Buggaveeti S, Kurabayashi K, Fan X. Flow-through microfluidic photoionization detectors for rapid and highly sensitive vapor detection. Presented at Pittcon 2016, Atlanta, GA, March 6-10, 2016. |
R835644 (2015) R835644 (2016) |
not available |
Presentation | Low power miniaturized helium dielectric barrier discharge photoionization detectors for highly sensitive vapor detection. | None | Zhu H, Zhou M, Lee J, Nidetz R, Kurabayashi K, Fan X | Zhu H, Zhou M, Lee J, Nidetz R, Kurabayashi K, Fan X. Low power miniaturized helium dielectric barrier discharge photoionization detectors for highly sensitive vapor detection. Presented at Pittcon 2017, Chicago, IL, March 5-9, 2017. |
R835644 (Final) |
not available |
The perspectives, information and conclusions conveyed in research project abstracts, progress reports, final reports, journal abstracts and journal publications convey the viewpoints of the principal investigator and may not represent the views and policies of ORD and EPA. Conclusions drawn by the principal investigators have not been reviewed by the Agency.