Journal of the Mass Spectrometry Society of Japan
Online ISSN : 1880-4225
Print ISSN : 1340-8097
ISSN-L : 1340-8097
Volume 64, Issue 6
Displaying 1-11 of 11 articles from this issue
REVIEW
  • Takafumi HIRATA, Michitaka TANAKA, Hideyuki O-BAYASHI, Kentaro HATTORI ...
    2016 Volume 64 Issue 6 Pages 225-235
    Published: December 01, 2016
    Released on J-STAGE: December 15, 2016
    JOURNAL FREE ACCESS

    Several important developments in the mass spectrometry techniques have been made in the last decade, including higher ionization efficiency, higher transmission efficiency, and faster mass scan capability, as well as a wide dynamic range for the ion collection. Especially, dynamic range and stability of the ion detection system is a still key issue for both elemental and isotopic analyses of geochemical and biochemical samples. Extremely high sensitivity can be achieved by the electron multiplier technique, but there still remains a problem associated with long- to medium-term gain stability. Time changes in gain of the EM was the major reason why multiple collection using the EMs was not developed. In strike contrast, it is widely recognized that Daly ion collector can provide higher gain stability and a wider dynamic range for the ion detection. In this study, long-term and medium-term stability, together with the dynamic range of the Daly ion collector were rigorously tested. The result showed that both linearity and stability was significantly better than the EMs. The resulting analytical capabilities and basic performance revealed that the Daly detectors can provide much more precise and accurate elemental and isotope ratio data for trace-elements in both the geochemical and biological samples. Details of the system configuration and analysis capability for the isotope ratio measurements will be described in this paper.

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REGULAR PAPER
  • Hisanao HAZAMA, Ayaka IWADE, Kunio AWAZU
    2016 Volume 64 Issue 6 Pages 237-243
    Published: December 01, 2016
    Released on J-STAGE: December 15, 2016
    JOURNAL FREE ACCESS

    Atmospheric pressure matrix-assisted laser desorption/ionization using an infrared laser (AP-IR-MALDI) was compared for a solution of a peptide, angiotensin II, in water with 0.1% trifluoroacetic acid (TFA) at wavelength bands of 3 and 6 μm. The absorption coefficient of the liquid phase water at the 3 μm wavelength band was about 5 times larger than that for the 6 μm wavelength band, while the peak ion signal intensities for [M+H]+ of angiotensin II were almost the same at both wavelength bands. The maximum peak ion signal intensity was obtained at laser fluences of 0.28 and 0.36 J/cm2 for the wavelengths of 2.88 and 6.00 μm, respectively, and it was slightly higher at the 6.00 μm wavelength. To understand such characteristics of the ion signal intensity, the ablation depth of water was estimated using the blow-off model. The results showed that the dependences of the ion signal intensity on wavelength and fluence could qualitatively explained with the blow-off model. A difference was observed between the threshold fluence for ion detection in the experiment and that of ablation in the blow-off model. The effect of the stress wave produced by the short pulse laser irradiation was not taken into account in the case of the blow-off model, and this simplification could explain the difference in the threshold fluences. The ionization of angiotensin II dissolved in a 0.1 M Tris–HCl buffer solution was examined with electrospray ionization (ESI) and AP-IR-MALDI. In the case of ESI, numerous peaks originated in clusters of Tris–HCl were detected over a wide m/z range. On the other hand, mass spectra obtained using AP-IR-MALDI were similar to those obtained in the case of water containing 0.1% TFA. When the peaks for analyte ions overlap those originated in the buffer solution, AP-IR-MALDI would be useful as a novel interface for online liquid chromatography/mass spectrometry.

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