AAAAAA
Results:
1-16
|
Results: 16
Authors:
Eiceman, GA
Tadjikov, B
Krylov, E
Nazarov, EG
Miller, RA
Westbrook, J
Funk, P
Citation: Ga. Eiceman et al., Miniature radio-frequency mobility analyzer as a gas chromatographic detector for oxygen-containing volatile organic compounds, pheromones and other insect attractants, J CHROMAT A, 917(1-2), 2001, pp. 205-217
Authors:
Miller, RA
Nazarov, EG
Eiceman, GA
King, AT
Citation: Ra. Miller et al., A MEMS radio-frequency ion mobility spectrometer for chemical vapor detection, SENS ACTU-A, 91(3), 2001, pp. 301-312
Authors:
Eiceman, GA
Ewing, GJ
Citation: Ga. Eiceman et Gj. Ewing, The detection and analysis of explosives - Preface, TALANTA, 54(3), 2001, pp. 425-426
Authors:
Ewing, RG
Atkinson, DA
Eiceman, GA
Ewing, GJ
Citation: Rg. Ewing et al., A critical review of ion mobility spectrometry for the detection of explosives and explosive related compounds, TALANTA, 54(3), 2001, pp. 515-529
Authors:
Eiceman, GA
Nazarov, EG
Rodriguez, JE
Stone, JA
Citation: Ga. Eiceman et al., Analysis of a drift tube at ambient pressure: Models and precise measurements in ion mobility spectrometry, REV SCI INS, 72(9), 2001, pp. 3610-3621
Authors:
Eiceman, GA
Nazarov, EG
Rodriguez, JE
Citation: Ga. Eiceman et al., Chemical class information in ion mobility spectra at low and elevated temperatures, ANALYT CHIM, 433(1), 2001, pp. 53-70
Authors:
Eiceman, GA
Nazarov, EG
Tadjikov, B
Miller, RA
Citation: Ga. Eiceman et al., Monitoring volatile organic compounds in ambient air inside and outside buildings with the use of a radio-frequency-based ion-mobility analyzer with a micromachined drift tube, FIELD A C T, 4(6), 2000, pp. 297-308
Authors:
Eiceman, GA
Citation: Ga. Eiceman, Quiet service from a field measurement technology; Ion mobility spectrometry is used worldwide for on-site analyses and current advances suggest a role in field measurements in the future, FIELD A C T, 4(5), 2000, pp. 217-218
Authors:
Miller, RA
Eiceman, GA
Nazarov, EG
King, AT
Citation: Ra. Miller et al., A novel micromachined high-field asymmetric waveform-ion mobility spectrometer, SENS ACTU-B, 67(3), 2000, pp. 300-306
Authors:
Bell, S
Nazarov, E
Wang, YF
Rodriguez, JE
Eiceman, GA
Citation: S. Bell et al., Neural network recognition of chemical class information in mobility spectra obtained at high temperatures., ANALYT CHEM, 72(6), 2000, pp. 1192-1198
Authors:
Eiceman, GA
Hill, HH
Gardea-Torresdey, J
Citation: Ga. Eiceman et al., Gas chromatography, ANALYT CHEM, 72(12), 2000, pp. 137R-144R
Authors:
Ewing, RG
Eiceman, GA
Stone, JA
Citation: Rg. Ewing et al., Proton-bound cluster ions in ion mobility spectrometry, INT J MASS, 193(1), 1999, pp. 57-68
Authors:
Eiceman, GA
Bergloff, JF
Rodriguez, JE
Munro, W
Karpas, Z
Citation: Ga. Eiceman et al., Atmospheric pressure chemical ionization of fluorinated phenols in atmospheric pressure chemical ionization mass spectrometry, tandem mass spectrometry, and ion mobility spectrometry, J AM SOC M, 10(11), 1999, pp. 1157-1165
Authors:
Baumbach, JI
Eiceman, GA
Citation: Ji. Baumbach et Ga. Eiceman, Ion mobility spectrometry: Arriving on site and moving beyond a low profile, APPL SPECTR, 53(9), 1999, pp. 338A-355A
Authors:
Bell, S
Nazarov, E
Wang, YF
Eiceman, GA
Citation: S. Bell et al., Classification of ion mobility spectra by functional groups using neural networks, ANALYT CHIM, 394(2-3), 1999, pp. 121-133
Authors:
Young, D
Thomas, CLP
Breach, J
Brittain, AH
Eiceman, GA
Citation: D. Young et al., Extending the concentration and linear dynamic range of ion mobility spectrometry with a sheath flow inlet, ANALYT CHIM, 381(1), 1999, pp. 69-83
Risultati:
1-16
|