Determining the water content of a drift gas using reduced ion mobility measurements. Hauck, B., C., Davis, E., J., Clark, A., E., Siems, W., F., Harden, C., S., McHugh, V., M., & Hill, H., H. International Journal of Mass Spectrometry, Elsevier B.V., 5, 2014.
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Website bibtex
Paper Website bibtex @article{
title = {Determining the water content of a drift gas using reduced ion mobility measurements},
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year = {2014},
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<m:bold>From Duplicate 1 ( </m:bold>
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<m:italic>Determining the water content of a drift gas using reduced ion mobility measurements</m:italic>
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<m:bold> - Hauck, Brian C.; Davis, Eric J.; Clark, Aurora E.; Siems, William F.; Harden, Charles S.; McHugh, Vincent M.; Hill, Herbert H. )<m:linebreak></m:linebreak>
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<m:bold>From Duplicate 2 ( </m:bold>
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<m:italic>Determining the water content of a drift gas using reduced ion mobility measurements</m:italic>
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<m:bold> - Hauck, Brian C.; Davis, Eric J.; Clark, Aurora E.; Siems, William F.; Harden, Charles S.; McHugh, Vincent M.; Hill, Herbert H. )<m:linebreak></m:linebreak>
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<m:linebreak></m:linebreak>This paper details a method of using the monomer/dimer ratio for a given Ion Mobility standard (in this case: DMMP, which is a common chemical weapons simulant) to determine atmospheric water content. It's an interesting way to get a potentially useful extra piece of information, and one that could be useful to help correct Ion Mobility data in the future. <m:linebreak></m:linebreak>
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<m:linebreak></m:linebreak>
<m:linebreak></m:linebreak>Unfortunately the method depends on protonated water clusters interacting with analyte ions. This only happens under positive-ion analyses. So, it's not particularly useful for our current field IMS ionization techniques. <m:linebreak></m:linebreak>
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bibtype = {article},
author = {Hauck, Brian C. and Davis, Eric J. and Clark, Aurora E. and Siems, William F. and Harden, Charles S. and McHugh, Vincent M. and Hill, Herbert H.},
journal = {International Journal of Mass Spectrometry}
}Downloads: 0
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It's an interesting way to get a potentially useful extra piece of information, and one that could be useful to help correct Ion Mobility data in the future. <m:linebreak></m:linebreak>\n <m:linebreak></m:linebreak>\n <m:linebreak></m:linebreak>\n <m:linebreak></m:linebreak>\n <m:linebreak></m:linebreak>Unfortunately the method depends on protonated water clusters interacting with analyte ions. This only happens under positive-ion analyses. 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