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Continuous flow reduced-pressure infrared laser desorption/ionization mass spectrometry.

Rapid communications in mass spectrometry : RCM (2017-08-30)
Yasunari Iguchi, Hisanao Hazama, Kunio Awazu
RESUMEN

Continuous flow ionization methods using infrared (IR) lasers have several favorable characteristics, including ionization without any additional matrices and tolerance to contaminants such as detergents and buffer salts. However, poor sensitivity due to low ion-transfer efficiency from the sample plate to the inlet capillary of the mass spectrometer under atmospheric pressure remains a serious problem. We developed a new continuous flow IR laser desorption/ionization (IR-LDI) method using a frit plate and wavelength-tunable mid-IR laser with an optical parametric oscillator. Continuous flow samples were directly injected into the ion source without any additional matrices. The ion source was covered with a decompression chamber, and could vary the pressure of the ion source from 21 to 101 kPa. Reduction of the pressure of the IR-LDI source from 101 to 71 kPa increased the signal intensity for the [M + H] Although many studies have described IR-LDI using a differential pumping mass spectrometer, the optimal pressure of the ion source has never been investigated. We found that a slight reduction in pressure enhances sensitivity. This knowledge may be applicable to a number of ambient ionization methods using IR lasers.

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Sigma-Aldrich
ProteoMass Angiotensin II MALDI-MS Standard, vial of 10 nmol
Sigma-Aldrich
Insulina from bovine pancreas, vial of 10 nmol, monoisotopic mol wt 5,729.6087 Da