• Nitric Oxide as a Reagent Gas in Ion Mobility Spectrometry,
    G A. Eiceman, K. Kelly, and E.G. Nazarov,
    Intl. J. Ion Mobility Spectrometry, 2002, 5(1), 22-30.

  • Atmospheric Pressure Chemical Ionization Studies of Non-polar Isomeric Hydrocarbons Using Ion Mobility Spectrometry and Mass Spectrometry with Different Ionization Techniques
    H. Borsdorf, E.G. Nazarov, and G.A. Eiceman,
    J. American Society Mass Spectrometry, 2002, 13 1078-1087.

  • Automated Control and Optimisation of Ion Mobility Spectrometry Responses Using a Sheath-Flow Inlet,
    D. Young, G.A. Eiceman, J. Breach, A.H. Brittain, and C.L.P. Thomas,
    Analytica Chima Acta 2002, in press.

  • Gas Chromatograph,
    G.A. Eiceman, J. Gardea-Torresday, E. Overton, K. Carney, and F. Dorman,
    Analytical Chemistry 2002, 74, 2771-2780

  • Ion Mobility Spectrometry as a Fast Monitor of Chemical Composition,
    G.A. Eiceman,
    Trends in Analytical Chemistry, 2002, 21(4),259-274.

  • Field Dependence on Mobilities for Gas Phase Protonated Monomers and Proton Bound Dimers of Ketones by Planar Field Asymmetric Waveform Ion Mobility Spectrometer (PFAIMS),
    E. Krylov, E.G. Nazarov, R.A. Miller, B. Tadjikov, and G.A. Eiceman,
    J. Phys. Chem. A 2002, 106, 5437-5444.

  • Comparison of Emission Profiles of Volatile Organic Compounds from Cotton and Polypropylene at Elevated Temperatures in Inert Gas and Air
    G.A. Eiceman, J. Bergloff, P. Funk,
    J. Cotton Science, 2002, 6, 1-28.

  • Micromachined Planar Field Asymmetric Ion Mobility Spectrometer as Gas Chromatogrpahic Detectors,
    G.A. Eiceman, E.G. Nazarov, R.A. Miller, E. Krylov and A. Zapata,
    Analyst 2002, 127, 4, 466-471.

  • Johnston Laser Desorption-Ionization of Polycyclic Aromatic Hydrocarbons on Borosilicate Glass at Ambient Pressure in Air with Ion Mobility Spectrometry,
    D. Young, K.M. Douglas, and G.A. Eiceman* D.A. Lake and M.V.
    2002, 453, 231-243.

  • Analysis of a Drift Tube at Ambient Pressure: Models and Precise Measurements in Ion Mobility Spectrometry,
    G.A. Eiceman, E.G. Nazarov, J.A. Stone, J.E. Rodriguez,
    Review of Scientific Instruments 2001, 72, 3610-3621    .

  • Miniature RF-Ion Mobility Analyzer as a Gas Chromatographic Detector: Oxygen-Containing Volatile Organic Compounds, Pheromones and Other Insect Attractants,
    G.A. Eiceman*, B. Tadjikov, E. Krylov, E.G. Nazarov, R.A. Miller1, J. Westbrook2, and P. Funk,
    J. Chromatogr. 2001, 917, 205-217.

  • A Micro-machined Ion Mobility Spectrometer-Mass Spectrometer,
    G.A. Eiceman*, E.G. Nazarov, and R.A. Miller,
    International Journal of Ion Mobility Spectrometry 2001, 3, 15-27.

  • A MEMS Radio-Frequency Ion Mobility Spectrometer for Chemical Agent Detection,
    R.A. Miller, E.G. Nazarov, G.A. Eiceman, T.A King,
    Sensor and Actuators A. Physical, 2001, 91, 301-312.

  • Chemical Class Information in Ion Mobility Spectra at Low and Elevated Temperatures,
    G.A. Eiceman*, E.G. Nazarov, and J.E. Rodriguez,
    Analytica Chimica Acta, 2001, 433, 53-70

  • A critical review of ion mobility spectrometry for the detection of explosives and explosive related compounds
    R.E. Ewing, G.J. Ewing, D.A. Atkinson, and G.A. Eiceman,
    Talanta, 2001, 54, 515-529.