| Autor: |
Hauck BC; Department of Chemistry , Washington State University , 305 Fulmer Hall , Pullman , Washington 99164 , United States., Siems WF; Department of Chemistry , Washington State University , 305 Fulmer Hall , Pullman , Washington 99164 , United States., Harden CS; LEIDOS-U.S. Army Edgewood Chemical Biological Center Operations , P.O. Box 68, Gunpowder , Maryland 21010 , United States., McHugh VM; U.S. Army Edgewood Chemical Biological Center , Aberdeen Proving Ground , Maryland 21010 , United States., Hill HH Jr; Department of Chemistry , Washington State University , 305 Fulmer Hall , Pullman , Washington 99164 , United States. |
| Abstrakt: |
Ion mobility spectrometry (IMS) is widely used to characterize compounds of interest (COIs) based on their reduced mobility ( K 0 ) values. In an attempt to increase the accuracy and agreement of studies, the most recommended method has been to use a reference compound with a known K 0 value to calibrate the instrument and calculate COI K 0 values from normalized spectra. Researchers are limited by the accuracy of previous K 0 value reference measurements on which to base their calibrations. Any inaccuracy in these reference K 0 values, typically ±2%, will propagate through to the calculated K 0 value of the COI. For this reason, there is a need to standardize reference K 0 values with improved accuracy. Through improvement of the accuracy of reference measurements, a lower degree of error will propagate through new K 0 value calculations. The K 0 values of the ammonium reactant ion, the potential reference standard dimethyl methylphosphonate (DMMP), and three explosive COIs were characterized at multiple drift gas temperatures, drift gas water contents, and electric field strengths on an accurate ion mobility spectrometry instrument. K 0 values reported here are known to ±0.1% as a result of reducing the error of all instrumental parameters. |
