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Ion mobility spectrometry in scientific literature and in the International Journal for Ion Mobility Spectrometry (1998–2007)

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International Journal for Ion Mobility Spectrometry

Abstract

Starting in 1998 the International Society for Ion Mobility Spectrometry, organising the annual conferences on ion mobility spectrometry, began to issue the International Journal for Ion Mobility Spectrometry. Now, in the 11th year the journal will be the first year together with SPRINGER. Therefore, the article focusses on the history of IMS providing an up to date account based on a systemetic search using the Web-of-Science and SciFinder search engines.

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References

  1. Carr T (1984) Plasma Chromatography. Plenum Press

  2. Widmer HM (1989) Neochromatographic technologies: Part 2. Ion mobility spectrometry. Chimia 43:268–277

    CAS  Google Scholar 

  3. Eiceman GA, Karpas Z (2005) Ion Mobility Spectrometry, Vol. 1, 1 Edn. CRC Press, Taylor & Francis, Boca Raton

    Google Scholar 

  4. Eiceman GA, Karpas Z (1994) Ion mobility spectrometry. CRC Press, Boca Raton, Ann Arbor, London, Tokyo, pp. 1–228

    Google Scholar 

  5. Revercomb HE, Mason EA (1975) Theory of plasma chromatography gaseous electrophoresis—review. Anal Chem 47:970–983

    Article  CAS  Google Scholar 

  6. Hill HH Jr, Siems WF, St. Louis RH, McMinn DG (1990) Ion mobility spectrometry. Anal Chem 62:1201A–1209A

    Article  CAS  Google Scholar 

  7. Eiceman GA, Stone JA (2004) Ion mobility spectrometers in National Defense. Anal Chem 76:390A–397A

    CAS  Google Scholar 

  8. Creaser CS et al. (2004) Ion mobility spectrometry: a review. Part 1. Structural analysis by mobility measurement. Analyst 129:984–994

    Article  CAS  Google Scholar 

  9. Baumbach JI (2006) Process analysis using ion mobility spectrometry. Anal Bioanal Chem 384:1059–1070

    Article  CAS  Google Scholar 

  10. Stach J (1997) Ionenmobilitätsspektrometrie-Grundlagen und Applikationen. Analytiker Taschenbuch 119–154

  11. Baumbach JI, Eiceman GA (1999) Ion mobility spectrometry: arriving on site and moving beyond a low profile. Appl Spectrosc 53:338A–355A

    Article  CAS  Google Scholar 

  12. Borsdorf H, Eiceman GA (2006) Ion mobility spectrometry: principles and applications. Appl Spectrosc Rev 41:323–375

    Article  CAS  Google Scholar 

  13. St. Louis RH, Hill HH Jr (1990) Ion mobility spectrometry in analytical chemistry. Crit Rev Anal Chem 21:321–355

    Article  CAS  Google Scholar 

  14. Eiceman GA (1991) Advances in ion mobility spectrometry—1980–1990. Crit Rev Anal Chem 22:17–36

    Article  Google Scholar 

  15. Xu F, Wang H, Guan Y (2005) Progress in ion mobility spectrometry. Huaxue Jinzhan 17:514–522

    CAS  Google Scholar 

  16. Wyttenbach T, Kemper PR, Bowers MT (2001) Design of a new electrospray ion mobility mass spectrometer. Int J Mass Spectr 212:13–23

    Article  CAS  Google Scholar 

  17. Stach J, Baumbach JI (2002) Ion mobility spectrometry—basic elements and applications. Int J Ion Mobil Spectrom 5:1–21

    CAS  Google Scholar 

  18. Hatano H (1985) Ion mobility spectrometry. Kagaku (Kyoto) 40:350–351

    CAS  Google Scholar 

  19. McDaniel EW, Mason EA (1973) The mobility and diffusion of ions in gases. Wiley-Interscience, New York

    Google Scholar 

  20. Zimmermann D, Hartmann M, Nolte J, Baumbach JI (2005) First detection of metabolites of the colon cancer cell line SW 480 using MCC/IMS and GC/MS. Int J Ion Mobil Spectrom 8:3–6

    CAS  Google Scholar 

  21. Xie Z, Sielemann S, Schmidt H, Baumbach JI (2001) A novel method for the detection of MTBE: ion mobility spectrometry coupled to multi capillary column. Int J Ion Mobil Spectrom 4:77–83

    CAS  Google Scholar 

  22. Vautz W, Sielemann S, Baumbach JI (2005) Qualitative detection of odours using ion mobility spectrometry. Int J Ion Mobil Spectrom 8:8–10

    CAS  Google Scholar 

  23. Vautz W, Ruszany V, Sielemann S, Baumbach JI (2004) Sensitive ion mobility spectrometry of humid ambient air using 10.6 eV UV-IMS. Int J Ion Mobil Spectrom 7:3–8

    CAS  Google Scholar 

  24. Vautz W, Baumbach JI, Jung J (2004) Continuous monitoring of the fermentation of beer by ion mobility spectrometry. Int J Ion Mobil Spectrom 7:1–3

    CAS  Google Scholar 

  25. Vautz W, Baumbach JI, Gesthuisen R (2004) Online quality control of polymerization processes using ion mobility spectrometry. Int J Ion Mobil Spectrom 7:4–7

    CAS  Google Scholar 

  26. Thomas P (2003) The management of co-eluting peaks in atmospheric pressure ionisation sources: exploiting the effect of field strength in differential mobility spectrometry. Int J Ion Mobil Spectrom 6:9–14

    CAS  Google Scholar 

  27. Su C-W, Rigdon S, Babcock K, Noble T, deFur P (2002) Columnless GC/IMS (I) a study of the variation in the thermal desorption profiles of three models of ionscan IMS instrument. Int J Ion Mobil Spectrom 5:175–193

    CAS  Google Scholar 

  28. Su C-W, Babcock K, Rigdon S (1998) The detection of cocaine on petroleum contaminated samples utilizing ion mobility spectrometry. Int J Ion Mobil Spectrom 1:15–27

    CAS  Google Scholar 

  29. Su C-W, Babcock K, deFur P, Noble T, Rigdon S (2002) Columnless GC/IMS (II)—a novel on-line separation technique for ionscan analysis. Int J Ion Mobil Spectrom 5:160–174

    CAS  Google Scholar 

  30. Stach J, Arthen-Engeland T, Flachowsky J, Borsdorf H (2002) A simple field method for determination of MTBE in water using hand held ion mobility (IMS). Int J Ion Mobil Spectrom 5:82–86

    CAS  Google Scholar 

  31. Snyder AP, Maswadeh WM, Tripathi A, Ho J, Spence M (2002) Field detection and identification of bioaerosol suite by pyrolysis-gas chromatography-ion mobility spectrometry. Int J Ion Mobil Spectrom 5:23–26

    CAS  Google Scholar 

  32. Ruzsanyi V, Baumbach JI, Eiceman GA (2003) Detection of the mold markers using ion mobility spectrometry. Int J Ion Mobil Spectrom 6:53–57

    CAS  Google Scholar 

  33. Ruzsanyi V, Baumbach JI (2005) Analysis of human breath using IMS. Int J Ion Mobil Spectrom 8:5–7

    CAS  Google Scholar 

  34. Pilzecker P, Baumbach JI, Kurte R, Heise HM (2002) Calibration of low resolution IMS by FT-IR to monitor the quality of SF6. Int J Ion Mobil Spectrom 5:132–137

    CAS  Google Scholar 

  35. Lafontaine P, Pilon P, Morrison R, Neudorfl P (2001) The use of GC-IMS to analyze high volume vapour samples from cargo containers. Int J Ion Mobil Spectrom 4:34–36

    CAS  Google Scholar 

  36. Keller T et al. (1999) Ion mobility spectrometry for the detection of drugs in cases of forensic and criminalistic relevance. Int J Ion Mobil Spectrom 2:22–34

    CAS  Google Scholar 

  37. Keller T et al. (1998) Detection of methamphetamine, MDMA and MDEA in human hair by means of ion mobility spectrometry (IMS). Int J Ion Mobil Spectrom 1:38–42

    CAS  Google Scholar 

  38. Gorev IA, Matsaev VT, Kozlov NN, Gumerov MF, Eiceman GA (2003) IMS analysis of volatile metal chelates. Int J Ion Mobil Spectrom 6:67–71

    CAS  Google Scholar 

  39. Flachowsky J, Brodacki M, Stach J (2003) Detection of DMS using hand-held IMS. Int J Ion Mobil Spectrom 6:39–41

    CAS  Google Scholar 

  40. Dion HM, Ackerman LK, Hill HH Jr (2001) Initial study of electrospray ionization-ion mobility spectrometry for the detection of metal cations. Int J Ion Mobil Spectrom 4:31–33

    CAS  Google Scholar 

  41. Colon Y et al. (2002) Ion mobility spectrometry determination of smokeless powders on surfaces. Int J Ion Mobil Spectrom 5:127–131

    CAS  Google Scholar 

  42. Cao L, Harrington PdB (2004) ALS to modeling of ion mobility spectra. Int J Ion Mobil Spectrom 7:9–11

    CAS  Google Scholar 

  43. Tabrizchi M (2002) Ion mobility spectrometry of alkali salts. Int J Ion Mobil Spectrom 5:55–58

    CAS  Google Scholar 

  44. Roch T, Baumbach JI (1998) Laser-based ion mobility spectrometry as an analytical tool for soil analysis. Int J Ion Mobil Spectrom 1:43–47

    CAS  Google Scholar 

  45. Doring HR, Arnold G, Budovich VL (2001) VIP sources for ion mobility spectrometry. Int J Ion Mobil Spectrom 4:67–70

    CAS  Google Scholar 

  46. Schmidt H, Baumbach JI, Pilzecker P, Klockow D (2000) Detection of chlorinated and fluorinated substances using partial discharge ion mobility spectrometry. Int J Ion Mobil Spectrom 3:8–14

    CAS  Google Scholar 

  47. Leonhardt JW, Rohrbeck W, Bensch H (2000) A high resolution IMS for environmental studies. Int J Ion Mobil Spectrom 3:43–49

    CAS  Google Scholar 

  48. Eiceman GA et al. (2002) A molecular and structural basis for compensation voltage. Int J Ion Mobil Spectrom 5:1–6

    CAS  Google Scholar 

  49. Eiceman GA, Krylova N, Krylov E, Stone JA (2003) Field dependence of mobility for gas phase ions of organophosphorus compounds at atmospheric pressure with differential mobility spectrometry and effects of moisture: insights into a model of positive alpha dependence. Int J Ion Mobil Spectrom 6:43–47

    CAS  Google Scholar 

  50. Li F, Horvath T, Schmidt H, Sielemann S, Baumbach JI (2002) The interface between a mobility spectrometer and a time-of-flight mass spectrometer: concept and first results. Int J Ion Mobil Spectrom 5:149–153

    CAS  Google Scholar 

  51. Bramwell CJ, Creaser CS, Reynolds JC, Dennis R (2002) Atmospheric pressure matrix-assisted laser desorption/ionization combined with ion mobility spectrometry. Int J Ion Mobil Spectrom 5:87–90

    CAS  Google Scholar 

  52. Eiceman GA et al. (2002) GC-PFAIMS as smart smoke alarm. Identification of combustion sources by patterns of retention time and compensation voltage. Int J Ion Mobil Spectrom 5:71–75

    CAS  Google Scholar 

  53. Bensch H, Leonhardt M (2002) Comparison of drift times of different IMS. Int J Ion Mobil Spectrom 5:7–10

    CAS  Google Scholar 

  54. Tabrizchi M (2002) Temperature corrections for ion mobility spectrometry. Int J Ion Mobil Spectrom 5:59–62

    CAS  Google Scholar 

  55. Schafer RJ, Harden CS, McHugh VM, Brett N, Thomas M (2005) Real time ion mobility spectra analyses designed especially for fluctuating signals. Int J Ion Mobil Spectrom 8:11–15

    CAS  Google Scholar 

  56. Borsdorf H, Neitsch K, Grotemeyer J (2006) Influence of substituents on ion formation and ion mobility considering different techniques of atmospheric pressure ionization. Int J Ion Mobil Spectrom 9:1–18

    CAS  Google Scholar 

  57. Pfeifer KB, Rohde SB, Peterson KA, Rumpf AN (2004) Development of rolled miniature drift tubes using low temperature co-fired ceramics (LTCC). Int J Ion Mobil Spectrom 7:52–58

    CAS  Google Scholar 

  58. Asbury GR, Hill HH Jr (1999) Negative ion electrospray ionization ion mobility spectrometry. Int J Ion Mobil Spectrom 2:1–8

    CAS  Google Scholar 

  59. Borsdorf H, Rudolph M (2000) Comparative ion mobility measurements of isomeric nitrogenous aromatics using different ionization techniques. Int J Ion Mobil Spectrom 3:1–7

    CAS  Google Scholar 

  60. Miller RA, Eiceman GA, Nazarov EG (2002) A micromachined field asymmetric ion mobility spectrometer (FA-IMS). Int J Ion Mobil Spectrom 5:118–134

    CAS  Google Scholar 

  61. Eiceman GA, Nazarov EG, Rodriguez JE, Bergloff JF (1998) Positive reactant ion chemistry for analytical, high temperature ion mobility spectrometry (IMS): effects of electric field of the drift tube and moisture, temperature, and flow of the drift gas. Int J Ion Mobil Spectrom 1:28–37

    CAS  Google Scholar 

  62. Vautz W, Sielemann S, Baumbach JI (2004) 3D gas flow simulation as a tool for the characterisation and optimisation of ion mobility spectrometers. Int J Ion Mobil Spectrom 7:19–24

    CAS  Google Scholar 

  63. Karpas Z, Eiceman GA, Krylov EV, Krylova N (2004) Models on ion heating and mobility in linear field drift tubes and in differential mobility spectrometers. Int J Ion Mobil Spectrom 7:C8-C18

    CAS  Google Scholar 

  64. Thathapudi NG (2005) The development of a high sensitivity, man-portable chemical detector-GID-M. Int J Ion Mobil Spectrom 8:72–76

    CAS  Google Scholar 

  65. Nazarov EG, Miller RA, Eiceman GA, Krilov E (2002) Monitoring of trace amounts of sulfur compounds in air/hydrocarbon gas streams using a differential mobility spectrometer. Int J Ion Mobil Spectrom 5:76–81

    CAS  Google Scholar 

  66. Ruzsanyi V, Sielemann S, Baumbach JI (2002) Determination of VOCs in human breath using IMS. Int J Ion Mobil Spectrom 5:45–48

    CAS  Google Scholar 

  67. Griffin LBS (2002) Trace level confirmation of controlled substances found by ion mobility spectrometry, with quadrupole ion-trap mass spectrometry. Int J Ion Mobil Spectrom 5:31–40

    CAS  Google Scholar 

  68. Limero T, Reese E (2002) First operational use of the ISS-VOA in a potential contingency event. Int J Ion Mobil Spectrom 5:27–30

    CAS  Google Scholar 

  69. Baumbach JI, Sielemann S, Pilzecker P (2000) Coupling of multi-capillary columns with two different types of ion mobility spectrometer. Int J Ion Mobil Spectrom 3:28–37

    CAS  Google Scholar 

  70. Eiceman GA, Kelly K, Nazarov EG (2002) Nitric oxide as a reagent gas in ion mobility spectrometry. Int J Ion Mobil Spectrom 5:22–30

    CAS  Google Scholar 

  71. Ringer J, Ross SK, West DJ (2002) An IMS/MS investigation of lewisite and lewisite/mustard mixtures. Int J Ion Mobil Spectrom 5:107–111

    CAS  Google Scholar 

  72. Sohn H, Steinhanses J (1998) Use of ion mobility spectrometry for the preliminary evaluation of hazardous military waste sites—opportunities and limitations. Int J Ion Mobil Spectrom 1:1–14

    CAS  Google Scholar 

  73. Bollan HR, West DJ, Brokenshire JL (1998) Assessment of ion mobility spectrometry for monitoring monoethanolamine in recycled atmospheres. Int J Ion Mobil Spectrom 1:48–53

    CAS  Google Scholar 

  74. Nyholm S, Olofsson G, Rittfeldt L (1998) IMS-detection problems related to VX impurities. Int J Ion Mobil Spectrom 1:54–57

    CAS  Google Scholar 

  75. Taylor SJ et al (1998) Design aspects and operation characteristics of the lightweight chemical detector. Int J Ion Mobil Spectrom 1:58–63

    CAS  Google Scholar 

  76. Baumbach JI, Lampen P, Davies A (1998) IUPAC/JCAMP-DX: an international standard for the exchange of ion mobility spectrometry data. Int J Ion Mobil Spectrom 1:64–67

    CAS  Google Scholar 

  77. Borsdorf H, Schelhorn H, Flachowsky J, Doring HR, Stach J (1999) Determination of n-alkanes and branched chain alkanes by Corona discharge ion mobility spectrometry. Int J Ion Mobil Spectrom 2:9–14

    CAS  Google Scholar 

  78. Borsdorf H, Schelhorn H, Rudolph M, Flachowsky J, Stach J (1999) Ion mobility measurements of mono-halogenated benzenes using different ionization processes. Int J Ion Mobil Spectrom 2:40–44

    CAS  Google Scholar 

  79. Sielemann S, Baumbach JI, Pilzecker P, Walendzik G (1999) Detection of trans-1,2-dichloroethene, trichloroethene and tetrachloroethene using multi-capillary columns coupled to ion mobility spectrometers with UV-ionisation sources. Int J Ion Mobil Spectrom 2:15–21

    CAS  Google Scholar 

  80. Baumbach JI, Pilzecker P, Trindade E (1999) Monitoring of circuit breakers using ion mobility spectrometry to detect SF6-decomposition. Int J Ion Mobil Spectrom 2:35–39

    CAS  Google Scholar 

  81. Nazarov E, Eiceman GA, Bell SE (1999) Quantitative assessment for the training of neural networks with large libraries of ion mobility spectra. Int J Ion Mobil Spectrom 2:45–60

    CAS  Google Scholar 

  82. DeTulleo AM, Galat PB, Gay ME (2000) Detecting heroin in the presence of cocaine using ion mobility spectrometry. Int J Ion Mobil Spectrom 3:38–42

    CAS  Google Scholar 

  83. Eiceman GA, Nazarov E, Miller RA (2000) A micro-machined ion mobility spectrometer-mass spectrometer. Int J Ion Mobil Spectrom 3:15–27

    CAS  Google Scholar 

  84. Bollan HR, Brokenshire JL (2001) The development and sea trials of a prototype portable ion mobility spectrometer for monitoring monoethanolamine on board submarines. Int J Ion Mobil Spectrom 4:7–12

    CAS  Google Scholar 

  85. DeBono R et al (2001) Rapid analysis of pesticides on important fruits by GC-IONSCAN. Int J Ion Mobil Spectrom 4:16–19

    CAS  Google Scholar 

  86. Su C-W, Rigdon S, Babcock K (2001) In-situ methylation of methamphetamine during IONSCAN analysis. Int J Ion Mobil Spectrom 4:48–51

    CAS  Google Scholar 

  87. Webster G (2001) Evolution of IMS technology within the Australian customs service. Int J Ion Mobil Spectrom 4:65–66

    CAS  Google Scholar 

  88. Xu J, Whitten WB, Lewis TA, Ramsey JM (2001) A miniature ion mobility spectrometer with a pulsed corona-discharge ion source. Int J Ion Mobil Spectrom 4:3–6

    CAS  Google Scholar 

  89. Tabrizchi M, Khayamian T (2001) Ion mobility spectrometry in helium with corona discharge ionization source. Int J Ion Mobil Spectrom 4:52–56

    CAS  Google Scholar 

  90. Buryakov IA, Kolomiets YN Louppou VB (2001) Ion non-linear drift spectrometer (INLDS)—a selective detector for high-speed gas chromatography. Int J Ion Mobil Spectrom 4:13–15

    CAS  Google Scholar 

  91. Spangler GE (2001) Relationships for ion dispersion in ion mobility spectrometry. Int J Ion Mobil Spectrom 4:71–76

    CAS  Google Scholar 

  92. Fuche C, Gond A, Collot D, Faget C (2001) The use of IMS and GC/IMS for analysis of Saliva. Int J Ion Mobil Spectrom 4:20–25

    CAS  Google Scholar 

  93. Su C-W, Rigdon S, Noble T, Donahue M, Ranslem C (2001) Operational assessment of a handheld ion mobility spectrometry instrument. Int J Ion Mobil Spectrom 4:45–47

    CAS  Google Scholar 

  94. Tarver E, Stamps JF, Jennings RT, Siems WF (2001) External exit gate Fourier transform ion mobility spectrometry. Int J Ion Mobil Spectrom 4:57–59

    CAS  Google Scholar 

  95. Mina N, Hernandez SP, Roman FR, Rivera LA (2001) Evaluation of sample collectors for ion mobility spectrometry. Int J Ion Mobil Spectrom 4:37–40

    CAS  Google Scholar 

  96. Harrington PdB, Chen G, Urbas A (2001) Strategies for smarter chemical sensors. Int J Ion Mobil Spectrom 4:26–30

    CAS  Google Scholar 

  97. Davies AN, Baumbach JI, Lampen P, Schmidt H (2001) Finalisation of a IUPAC/JCAMP-DX data transfer standard for ion mobility spectrometry data. Int J Ion Mobil Spectrom 4:84–86

    CAS  Google Scholar 

  98. Spangler GE (2002) Theory for an ion mobility storage trap. Int J Ion Mobil Spectrom 5:135–159

    CAS  Google Scholar 

  99. Spangler GE (2002) The effect of cluster thermochemistry on the energetics of an ion in ion mobility spectrometry. Int J Ion Mobil Spectrom 5:42–75

    CAS  Google Scholar 

  100. Stone JA (2002) The kinetics and thermodynamics of ion solvation applicable to ion mobility spectrometry. Int J Ion Mobil Spectrom 5:19–41

    CAS  Google Scholar 

  101. Chen ECM, Chen ES (2002) The calculation of electron affinities and bond dissociation energies of pesticides and explosives analyzed in negative ion mobility spectrometry. Int J Ion Mobil Spectrom 5:11–14

    CAS  Google Scholar 

  102. Bell AJ, Ross SK (2002) Reverse flow continuous corona discharge ionisation. Int J Ion Mobil Spectrom 5:95–99

    CAS  Google Scholar 

  103. Tabrizchi M, Abedi A (2002) Negative corona discharge ionization source for ion mobility spectrometry. Int J Ion Mobil Spectrom 5:51–54

    CAS  Google Scholar 

  104. Ruzsanyi V, Sielemann S, Baumbach JI (2002) Determination of microbial volatile organic compounds (MVOC) using IMS with different ionization sources. Int J Ion Mobil Spectrom 5:138–142

    CAS  Google Scholar 

  105. Bellerby M, Foyle J, Hodges G, Underwood NJ, West D (2002) A technique to extend the concentration range of ion mobility spectrometry based detectors and monitors. Int J Ion Mobil Spectrom 5:123–126

    CAS  Google Scholar 

  106. Bensch H (2002) The RIP positions in dependence on the moisture. Int J Ion Mobil Spectrom 5:39–42

    CAS  Google Scholar 

  107. Thathapudi N (2002) A material selection process for IMS based instruments. Int J Ion Mobil Spectrom 5:91–94

    CAS  Google Scholar 

  108. Su C-W, Babcock K (2002) The effect of sampling materials on the formation of different clusters during the ion mobility spectrometry detection of secondary high explosives. Int J Ion Mobil Spectrom 5:55–58

    CAS  Google Scholar 

  109. Su C-W, Babcock K (2002) The use of solid phase desorption/gas chromatography/ion mobility spectrometry (SPD/GC/IMS) for explosive detection. Int J Ion Mobil Spectrom 5:67–70

    CAS  Google Scholar 

  110. DeBono R et al (2002) Separation of mixtures using gas chromatography coupled to ion mobility spectrometry. Int J Ion Mobil Spectrom 5:194–201

    CAS  Google Scholar 

  111. Limero T, Reese E, Peters R, James JT (2002) Evaluation of gas chromatography/mini-IMS to detect VOCs. Int J Ion Mobil Spectrom 5:98–117

    CAS  Google Scholar 

  112. Sielemann S, Baumbach JI, Schmidt H (2002) IMS with non radioactive ionization sources suitable to detect chemical warfare agent simulation substances. Int J Ion Mobil Spectrom 5:143–148

    CAS  Google Scholar 

  113. Denson S, Denton B, Sperline R, Rodacy P, Gresham C (2002) Ion mobility spectrometry utilizing micro-Faraday finger array detector technology. Int J Ion Mobil Spectrom 5:100–103

    CAS  Google Scholar 

  114. Sielemann S, Horvath T, Teepe M, Baumbach JI (2002) Data acquisition, data analysis and data base for the new miniaturized IMS micro IMS 700. Int J Ion Mobil Spectrom 5:19–22

    CAS  Google Scholar 

  115. Geraghty E, Wu C, McGann W (2002) Effective screening for “club drugs” with dual mode ion trap mobility spectrometry. Int J Ion Mobil Spectrom 5:41–44

    CAS  Google Scholar 

  116. Karpas Z, Chaim W, Gdalevsky R, Tilman B, Lorber A (2002) Diagnosis of vaginal infections by ion mobility spectrometry. Int J Ion Mobil Spectrom 5:49–54

    CAS  Google Scholar 

  117. Leonhardt MJ, Leonhardt JW, Bensch H (2002) Mobilities of halogenated compounds. Int J Ion Mobil Spectrom 5:43–46

    CAS  Google Scholar 

  118. Davies AN, Lampen P, Schmidt H, Baumbach JI (2002) Reporting ion mobility spectrometry data and the IUPAC/JCAMP-DX international data standard. Int J Ion Mobil Spectrom 5:47–50

    CAS  Google Scholar 

  119. Harrington PdB, Wan C (2002) Sensitivity analysis applied to artificial neural networks: what has my neural network actually learned? Int J Ion Mobil Spectrom 5:1–18

    CAS  Google Scholar 

  120. McGann WJ, Haigh P, Neves JL (2002) Expanding the capability of IMS explosive trace detection. Int J Ion Mobil Spectrom 5:119–122

    CAS  Google Scholar 

  121. Rodacy P, Reber S, Walker P, Andre JV (2002) Underwater chemical sensing of explosive targets using ion mobility spectroscopy. Int J Ion Mobil Spectrom 5:59–62

    CAS  Google Scholar 

  122. Kanu AB, Thomas CLP (2003) Analysis of trichlorobenzene in surface waters by differential mobility spectrometry. Int J Ion Mobil Spectrom 6:15–20

    CAS  Google Scholar 

  123. Khayamian T, Tabrizchi M, Jabarootian E (2003) Direct detection of ultra-trace amounts of trihalomethanes in water by negative corona discharge ion mobility spectrometry. Int J Ion Mobil Spectrom 6:1–3

    CAS  Google Scholar 

  124. Li F, Eiceman GA, Ruzsanyi V, Baumbach JI (2003) Gasoline analysis by GC-UV-IMS. Int J Ion Mobil Spectrom 6:63–66

    CAS  Google Scholar 

  125. Vautz W, Sielemann S, Baumbach JI (2003) The influence of humidity on the determination of organic trace substances in ambient air using UV ion mobility spectrometry: alpha- and beta-pinene, 3-carene and limonene. Int J Ion Mobil Spectrom 6:21–29

    CAS  Google Scholar 

  126. Marr AJ, Groves DM (2003) Ion mobility spectrometry of peroxide explosives TATP and HMTD. Int J Ion Mobil Spectrom 6:59–62

    CAS  Google Scholar 

  127. Sun Y, DeBono R, Burton J (2003) Monitoring diborane vapor with Smiths Detection’s Centurion. Int J Ion Mobil Spectrom 6:11–16

    CAS  Google Scholar 

  128. Neves JL, Haigh PE, Wu C, McGann WJ (2003) ITMS-MS analysis of smokeless powder. Int J Ion Mobil Spectrom 6:1–3

    CAS  Google Scholar 

  129. McHugh VM et al (2003) Using an array of ion mobility spectrometers for ground truth measurements in field tests involving releases of chemical warfare agent surrogates. Int J Ion Mobil Spectrom 6:49–52

    CAS  Google Scholar 

  130. Stimac RM, Kaye WJ, Holland PM, Kojiro DR, Takeuchi N (2004) A MEMS GC-Mini-cell IMS for astrobiology measurements. Int J Ion Mobil Spectrom 7:22–35

    CAS  Google Scholar 

  131. Xu J, Whitten WB, Ramsey JM, Verbeck G (2004) Study of ample interference in single-pulse ionization miniature IMS. Int J Ion Mobil Spectrom 7:15–21

    CAS  Google Scholar 

  132. Vautz W, Sielemann S, Uhde E, Baumbach JI (2004) Detection of emission from material surfaces using ion mobility spectrometry. Int J Ion Mobil Spectrom 7:25–29

    CAS  Google Scholar 

  133. Ochoa ML, Harrington PB (2004) Characterization and differentiation of bacteria using in situ derivatization ion mobility spectrometry of whole cells and chemo metric modeling. Int J Ion Mobil Spectrom 7:C19-C50

    CAS  Google Scholar 

  134. Baumbach JI, Pilzecker P (2005) Assessment of SF6 quality in gas insulated compartments of high voltage equipment using partial discharge ion mobility spectrometers. Int J Ion Mobil Spectrom 8:7–11

    CAS  Google Scholar 

  135. McHugh VM et al (2005) Update of an unmanned aerial vehicle (UAV) payload for detection, identification and acquisition of vapors of toxic substances and their precursors. Int J Ion Mobil Spectrom 8:38–41

    CAS  Google Scholar 

  136. Slaton JG, Sawyer HA, Russell DH (2005) Low-pressure ion mobility-time-of-flight mass spectrometry for metalated peptide ion structural characterization: tyrosine-containing tripeptides and homologous septapeptides. Int J Ion Mobil Spectrom 8:42–48

    CAS  Google Scholar 

  137. Harrington PB, Chen P (2005) Equilibrium modeling of ion mobility spectra. Int J Ion Mobil Spectrom 8:16–37

    CAS  Google Scholar 

  138. McLean JA, Russell DH (2005) Multiplex data acquisition based on analyte dispersion in two dimensions: More signal more of the time. Int J Ion Mobil Spectrom 8:66–71

    CAS  Google Scholar 

  139. Kojiro DR, Stimac RM, Kaye WJ, Holland PM, Takeuchi N (2006) Miniature GC-MiniCell ion mobility spectrometer (IMS) for in situ measurements in astrobiology planetary missions. Int J Ion Mobil Spectrom 9:60–64

    CAS  Google Scholar 

  140. Pfeifer KB, Rohde SB, Theisen LA, Bouchier FA (2006) Correlation ion mobility spectrometry: the intersection of radar and IMS. Int J Ion Mobil Spectrom 9:8–12

    CAS  Google Scholar 

  141. Kanu AB et al (2006) Determining optimal resolving power for atmospheric pressure ion mobility spectrometer (APIMS). Int J Ion Mobil Spectrom 9:55–59

    CAS  Google Scholar 

  142. Verkouteren M et al (2006) Inkjet metrology and standards for ion mobility spectrometry. Int J Ion Mobil Spectrom 9:19–23

    CAS  Google Scholar 

  143. Limero T, Cheng P, Boyd J (2006) Preliminary investigation of gas chromatography-differential mobility spectrometry as a replacement for the volatile organic analyzer. Int J Ion Mobil Spectrom 9:29–34

    CAS  Google Scholar 

  144. Miller RA, Nazarov E, Coy SL, Krylov E (2006) Miniature differential mobility spectrometer as an a pre-filter for atmospheric pressure mass spectrometry. Int J Ion Mobil Spectrom 9:35–39

    CAS  Google Scholar 

  145. Nazarov EG, Miller RA, Coy SL, Krylov E, Kryuchkov SI (2006) Software simulation of ion motion in DC and AC electric fields including fluid-flow effects. Int J Ion Mobil Spectrom 9:40–44

    Google Scholar 

  146. Walters RN, Ryan KP, Gribb MM, Kanu AB, Hill HH (2006) A compact ion mobility spectrometer sensor for subsurface detection of organic vapors. Int J Ion Mobil Spectrom 9:50–54

    CAS  Google Scholar 

  147. Thomas CLP, Avaes M (2006) Examination of the effects of inter- and intramolecular ion interactions in differential mobility spectrometry (DMS). Int J Ion Mobil Spectrom 9:1–5

    CAS  Google Scholar 

  148. Guevremont R, Smith RD (2006) New directions for FAIMS and IMS opened by dipole alignment of macroions in strong electric fields. Int J Ion Mobil Spectrom 9:6–12

    Google Scholar 

  149. MacCrehan WA (2006) Development of a NIST trace particulate explosives reference material to evaluate IMS detectors. Int J Ion Mobil Spectrom 9:13–23

    CAS  Google Scholar 

  150. Thekkadath G, Vandrish G, Hin Nguyen G, Huynh P (2006) Rapid, portable, and energy efficient detection of explosives, narcotics, and chemical agents using COLD-IMS with a novel GC interface. Int J Ion Mobil Spectrom 9:17–23

    Google Scholar 

  151. Bell SC, Shakleya DM, Gayton Ely M (2006) Detection of biomarkers of forensic interest in breath by ion mobility spectrometry. Int J Ion Mobil Spectrom 9:24–29

    Google Scholar 

  152. Borsdorf H (2007) Influence of structural features of isomeric hydrocarbons on ion formation at atmospheric pressure. Int J Ion Mobil Spectrom 10:31–37

    Google Scholar 

  153. Sabo M et al (2007) Ion mobilities and reduced mobilities in negative corona discharge in pure CO2. Int J Ion Mobil Spectrom 10:87–88

    Google Scholar 

  154. Ross SK (2007) Dopants in high field asymmetric waveform spectrometry. Int J Ion Mobil Spectrom 10:18–330

    Google Scholar 

  155. Saukko E et al. (2007) Modeling gas analyzer operation and verification of the model. Int J Ion Mobil Spectrom 10:1–4

    Google Scholar 

  156. Utriainen M, Paakkanen H, Nyholm S (2007) Detection and identification challenges of VX nerve gas. Int J Ion Mobil Spectrom 10:52–57

    Google Scholar 

  157. Krylov EV, Nazarov EG, Coy SL, Miller RA, Eiceman GA (2007) Pressure and temperature effects in differential mobility spectrometry. Int J Ion Mobil Spectrom 10:67–72

    Google Scholar 

  158. Sabo M et al (2007) O3 and O2 mobilities in pure oxygen and nitrogen/oxygen. Int J Ion Mobil Spectrom 10:89–90

    Google Scholar 

  159. Harden CS, Harden JC (2007) Detection of contraband in shipping containers. Int J Ion Mobil Spectrom 10:44–51

    Google Scholar 

  160. Limero T, Chen E, Cheng P, Boyd J (2007) Differential mobility spectrometry: Preliminary findings on determination of fundamental constants. Int J Ion Mobil Spectrom 10:73–79

    Google Scholar 

  161. Nazarov EG et al (2007) Miniature DMS-IMS detector for enhanced revolving power. Int J Ion Mobil Spectrom 10:5–8

    Google Scholar 

  162. Papanastasiou D et al (2007) Differential mobility separation of ions using rectangular asymmetric waveform. Int J Ion Mobil Spectrom 10:80–86

    Google Scholar 

  163. Limero T (2007) Volatile organic analyzer in 2006: repair, revalidation and restart of electron event. Int J Ion Mobil Spectrom 10:58–66

    Google Scholar 

  164. Raatikainen O, Hiltunen T, Törmikoski K, Hyvönen P, Paakkanen H (2007) Ion mobility spectrometry based gas detector MGD-1: applications to food process monitoring and food quality assessment. Int J Ion Mobil Spectrom 10:38–43

    Google Scholar 

  165. Räsänen RM et al (2007) Detecting gas phase Triuacetone triperoxide, its reactants and reference substances with aspiration ion mobility spectrometry. Int J Ion Mobil Spectrom 10:9–14

    Google Scholar 

  166. Rush MA (2007) Applications for a MEMS Fabricated FAIMS Device. Int J Ion Mobil Spectrom 10:15–17

    Google Scholar 

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  1. ISAS - Institute for Analytical Sciences, Bunsen - Kirchhoff - Straße 11, 44139, Dortmund, Germany

    J. I. Baumbach

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Baumbach, J.I. Ion mobility spectrometry in scientific literature and in the International Journal for Ion Mobility Spectrometry (1998–2007). Int. J. Ion Mobil. Spec. 11, 3–11 (2008). https://doi.org/10.1007/s12127-008-0009-2

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