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Ion and radical chemistry in (H2O2)(N)clusters

Publication at Faculty of Mathematics and Physics |
2020

Abstract

We investigate the ionization induced chemistry of hydrogen peroxide in (H2O2)(N)clusters generated after the pickup of individual H(2)O(2)molecules on large free Ar-M,M approximate to 160, nanoparticles in molecular beams. Positive and negative ion mass spectra are recorded after an electron ionization of the clusters at energies 5-70 eV and after a slow electron attachment (below 4 eV), respectively.

The spectra demonstrate that (H2O2)(N)clusters withN >= 20 are formed on argon nanoparticles. This is the first experimental report on hydrogen peroxide clusters in molecular beams.

The major negative cluster ion series (H2O2)(n)O(2)(-)indicates O(2)(-)ion formation. The dissociative electron attachment to H(2)O(2)molecules in the gas phase yielded only OH(-)and O-(Nandiet al.,Chem.

Phys. Lett., 2003,373, 454).

These ions and the series containing them are much less abundant in the clusters. We propose a sequence of ion-molecule and radical reactions to explain the formation of O-2(-), HO(2)(-)and other ions observed in the negatively charged cluster ion series.

Since hydrogen peroxide plays an important role in many areas of chemistry from the Earth's atmosphere to biological tissues, our study opens new horizons for experimental investigations of hydrogen peroxide chemistry in complex environments.