V. G. Lukin scite author profile

Rapid Comm Mass Spectrometry

Fokin

et al. 2002

A series of seven typical matrix-assisted laser desorption/ionization (MALDI) matrices has been investigated by means of electron capture negative ion mass spectrometry (ECNI-MS). It has been shown that the most effective matrices form deprotonated negative ions predominantly in the low-energy region. Relative dissociative cross sections have been measured for all molecules under investigation. The relative integrated abundance of [M - H](-) ion formation in the series changes by four orders of magnitude. It has been shown that 2,5-DHB (gentisic acid), one of the most effective MALDI matrices, has maximal relative intensity of [M - H](-) formation at the energy approximately equal 0.8 eV. This result is in accordance with a finding of Frankevich and Zenobi [Book of Abstracts, Workshop-school "Mass spectrometry in chemical physics, bio-physics and environmental sciences", Zvenigorod, Russia, April, 25-26, 2002, p. 40] that a probable origin of negative ions in MALDI is the process of low-energy (0.5-1 eV) dissociative electron capture by matrix molecules.

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Temperature dependence of dissociative electron attachment to molecules of gentisic acid, hydroquinone and p-benzoquinone

International Journal of Mass Spectrometry

Fal’ko

et al. 2003

Temporary anion states and dissociative electron attachment to nitrobenzene derivatives

International Journal of Mass Spectrometry

Lukin

et al. 2007

Temperature dependencies of negative ions formation by capture of low-energy electrons for some typical MALDI matrices

International Journal of Mass Spectrometry

Fal’ko

et al. 2003