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Year 2016, Special Issue (2016), 57 - 60, 01.12.2016
https://doi.org/10.18100/ijamec.263976

Abstract

References

  • Angeletti, R., Gioacchini, A. M., Seraglia, R., Piro, R., & Traldi, P. (1998). The potential of matrix-assisted laser desorption/ionization mass spectrometry in the quality control of water buffalo mozzarella cheese. J Mass Spectrom, 33(6), 525-531. doi:10.1002/(SICI)1096-9888(199806)33:6<525::AID-JMS655>3.0.CO;2-S
  • Balog, J., Szaniszlo, T., Schaefer, K.-C., Denes, J., Lopata, A., Godorhazy, L., . . . Toth, M. (2010). Identification of biological tissues by rapid evaporative ionization mass spectrometry. Analytical Chemistry, 82(17), 7343-7350.
  • Balsiger, H., Altwegg, K., Bochsler, P., Eberhardt, P., Fischer, J., Graf, S., . . . Wollnik, H. (2007). Rosina - Rosetta orbiter spectrometer for ion and neutral analysis. Space Science Reviews, 128(1-4), 745-801. doi:10.1007/s11214-006-8335-3
  • Berman, E. S., Levin, N. E., Landais, A., Li, S., & Owano, T. (2013). Measurement of δ18O, δ17O, and 17O-excess in water by off-axis integrated cavity output spectroscopy and isotope ratio mass spectrometry. Analytical Chemistry, 85(21), 10392-10398.
  • Briois, C., Thissen, R., Thirkell, L., Aradj, K., Bouabdellah, A., Boukrara, A., . . . Colin, F. (2016). Orbitrap mass analyser for in situ characterisation of planetary environments: Performance evaluation of a laboratory prototype. Planetary and Space Science, 131, 33-45.
  • Brouwers, E. E., Tibben, M., Rosing, H., Schellens, J. H., & Beijnen, J. H. (2008). The application of inductively coupled plasma mass spectrometry in clinical pharmacological oncology research. Mass Spectrom Rev, 27(2), 67-100. doi:10.1002/mas.20159
  • Bruins, A. (1994). Atmospheric-pressure-ionization mass spectrometry: II. Applications in pharmacy, biochemistry and general chemistry. TrAC Trends in Analytical Chemistry, 13(2), 81-90.
  • Catharino, R. R., Milagre, H. M. S., Saraiva, S. A., Garcia, C. M., Schuchardt, U., Eberlin, M. N., . . . de Souza, V. (2007). Biodiesel typification and quality control by direct infusion electrospray ionization mass spectrometry fingerprinting. Energy & Fuels, 21(6), 3698-3701. doi:10.1021/ef7003078
  • Cheng, H., Edwards, R. L., Shen, C. C., Polyak, V. J., Asmerom, Y., Woodhead, J., . . . Alexander, E. C. (2013). Improvements in Th-230 dating, Th-230 and U-234 half-life values, and U-Th isotopic measurements by multi-collector inductively coupled plasma mass spectrometry. Earth and Planetary Science Letters, 371, 82-91. doi:10.1016/j.epsl.2013.04.006
  • Chu, N. C., Taylor, R. N., Chavagnac, V., Nesbitt, R. W., Boella, R. M., Milton, J. A., . . . Burton, K. (2002). Hf isotope ratio analysis using multi-collector inductively coupled plasma mass spectrometry: an evaluation of isobaric interference corrections. Journal of Analytical Atomic Spectrometry, 17(12), 1567-1574. doi:10.1039/b206707b

Chemical Analysis Program for the Time of Flight Mass Spectrometry System

Year 2016, Special Issue (2016), 57 - 60, 01.12.2016
https://doi.org/10.18100/ijamec.263976

Abstract

: In this work, we present a computer program that reads, manipulates,
analyses and stores the mass spectra obtained by using Laser Time of Flight
Mass Spectrometry (L-TOF-MS) system described elsewhere.  This program allows users to record the characteristic
parameters of experimental data such as vacuum pressure, voltages, laser power,
sample name etc. both manually and automatically.  Also, the obtained mass spectra can be used
to investigate chemical substances (NOx, SOx, organic
molecules etc.) or can be used to real time identification of the sample
differences for given material database (metal oxides, alloys, paintings,
healthy and cancerous tissues etc.) by using different mathematical and
statistical procedures (PCA, LDA, kNN etc.). 
We have recently presented a simple chemical analysis procedure by
starting from reading raw MS data from oscilloscope using TCP/IP protocol and
following data processing steps.  We have
a great success to reduce the numbers of steps and time duration consumed for
the following procedure.

References

  • Angeletti, R., Gioacchini, A. M., Seraglia, R., Piro, R., & Traldi, P. (1998). The potential of matrix-assisted laser desorption/ionization mass spectrometry in the quality control of water buffalo mozzarella cheese. J Mass Spectrom, 33(6), 525-531. doi:10.1002/(SICI)1096-9888(199806)33:6<525::AID-JMS655>3.0.CO;2-S
  • Balog, J., Szaniszlo, T., Schaefer, K.-C., Denes, J., Lopata, A., Godorhazy, L., . . . Toth, M. (2010). Identification of biological tissues by rapid evaporative ionization mass spectrometry. Analytical Chemistry, 82(17), 7343-7350.
  • Balsiger, H., Altwegg, K., Bochsler, P., Eberhardt, P., Fischer, J., Graf, S., . . . Wollnik, H. (2007). Rosina - Rosetta orbiter spectrometer for ion and neutral analysis. Space Science Reviews, 128(1-4), 745-801. doi:10.1007/s11214-006-8335-3
  • Berman, E. S., Levin, N. E., Landais, A., Li, S., & Owano, T. (2013). Measurement of δ18O, δ17O, and 17O-excess in water by off-axis integrated cavity output spectroscopy and isotope ratio mass spectrometry. Analytical Chemistry, 85(21), 10392-10398.
  • Briois, C., Thissen, R., Thirkell, L., Aradj, K., Bouabdellah, A., Boukrara, A., . . . Colin, F. (2016). Orbitrap mass analyser for in situ characterisation of planetary environments: Performance evaluation of a laboratory prototype. Planetary and Space Science, 131, 33-45.
  • Brouwers, E. E., Tibben, M., Rosing, H., Schellens, J. H., & Beijnen, J. H. (2008). The application of inductively coupled plasma mass spectrometry in clinical pharmacological oncology research. Mass Spectrom Rev, 27(2), 67-100. doi:10.1002/mas.20159
  • Bruins, A. (1994). Atmospheric-pressure-ionization mass spectrometry: II. Applications in pharmacy, biochemistry and general chemistry. TrAC Trends in Analytical Chemistry, 13(2), 81-90.
  • Catharino, R. R., Milagre, H. M. S., Saraiva, S. A., Garcia, C. M., Schuchardt, U., Eberlin, M. N., . . . de Souza, V. (2007). Biodiesel typification and quality control by direct infusion electrospray ionization mass spectrometry fingerprinting. Energy & Fuels, 21(6), 3698-3701. doi:10.1021/ef7003078
  • Cheng, H., Edwards, R. L., Shen, C. C., Polyak, V. J., Asmerom, Y., Woodhead, J., . . . Alexander, E. C. (2013). Improvements in Th-230 dating, Th-230 and U-234 half-life values, and U-Th isotopic measurements by multi-collector inductively coupled plasma mass spectrometry. Earth and Planetary Science Letters, 371, 82-91. doi:10.1016/j.epsl.2013.04.006
  • Chu, N. C., Taylor, R. N., Chavagnac, V., Nesbitt, R. W., Boella, R. M., Milton, J. A., . . . Burton, K. (2002). Hf isotope ratio analysis using multi-collector inductively coupled plasma mass spectrometry: an evaluation of isobaric interference corrections. Journal of Analytical Atomic Spectrometry, 17(12), 1567-1574. doi:10.1039/b206707b
There are 10 citations in total.

Details

Subjects Engineering
Journal Section Research Article
Authors

Abdullah Kepceoğlu

Hamdi Şükür Kılıç

Publication Date December 1, 2016
Published in Issue Year 2016 Special Issue (2016)

Cite

APA Kepceoğlu, A., & Kılıç, H. Ş. (2016). Chemical Analysis Program for the Time of Flight Mass Spectrometry System. International Journal of Applied Mathematics Electronics and Computers(Special Issue-1), 57-60. https://doi.org/10.18100/ijamec.263976
AMA Kepceoğlu A, Kılıç HŞ. Chemical Analysis Program for the Time of Flight Mass Spectrometry System. International Journal of Applied Mathematics Electronics and Computers. December 2016;(Special Issue-1):57-60. doi:10.18100/ijamec.263976
Chicago Kepceoğlu, Abdullah, and Hamdi Şükür Kılıç. “Chemical Analysis Program for the Time of Flight Mass Spectrometry System”. International Journal of Applied Mathematics Electronics and Computers, no. Special Issue-1 (December 2016): 57-60. https://doi.org/10.18100/ijamec.263976.
EndNote Kepceoğlu A, Kılıç HŞ (December 1, 2016) Chemical Analysis Program for the Time of Flight Mass Spectrometry System. International Journal of Applied Mathematics Electronics and Computers Special Issue-1 57–60.
IEEE A. Kepceoğlu and H. Ş. Kılıç, “Chemical Analysis Program for the Time of Flight Mass Spectrometry System”, International Journal of Applied Mathematics Electronics and Computers, no. Special Issue-1, pp. 57–60, December 2016, doi: 10.18100/ijamec.263976.
ISNAD Kepceoğlu, Abdullah - Kılıç, Hamdi Şükür. “Chemical Analysis Program for the Time of Flight Mass Spectrometry System”. International Journal of Applied Mathematics Electronics and Computers Special Issue-1 (December 2016), 57-60. https://doi.org/10.18100/ijamec.263976.
JAMA Kepceoğlu A, Kılıç HŞ. Chemical Analysis Program for the Time of Flight Mass Spectrometry System. International Journal of Applied Mathematics Electronics and Computers. 2016;:57–60.
MLA Kepceoğlu, Abdullah and Hamdi Şükür Kılıç. “Chemical Analysis Program for the Time of Flight Mass Spectrometry System”. International Journal of Applied Mathematics Electronics and Computers, no. Special Issue-1, 2016, pp. 57-60, doi:10.18100/ijamec.263976.
Vancouver Kepceoğlu A, Kılıç HŞ. Chemical Analysis Program for the Time of Flight Mass Spectrometry System. International Journal of Applied Mathematics Electronics and Computers. 2016(Special Issue-1):57-60.