S. Contarini scite author profile

Decomposition of lithium, sodium, and ammonium nitrate stimulated by 500-eV electrons, 1254-eV X-rays, and 4-keV Ar+ ions is investigated by X-ray photoelectron spectroscopy (XPS). The core level XPS spectra show that a steady-state composition is attained at a total irradiation dose of 1017 particles/cm2 in which the damaged layer contains predominantly M2G and M202 with smaller amounts of MN03 and MN02, where = Li and Na. Irradiation of NH4N03 produces no changes detectable by XPS, suggesting that the decomposition products are all volatile. While the relative atomic concentrations of the constituent elements within the damaged layer change in a similar manner for the three modes of radiation, i.e. there is an increase in alkali metal, decrease in nitrogen, and only minor changes in oxygen concentration, the specific products and relative abundances of these products differ. Consideration of these results in terms of the mechanisms of energy deposition into the atomic lattice indicates that the energy density deposited by all three sources exceeds that required for decomposition and that the excess energy determines the extent of reaction.

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Ion bombardment-induced decomposition of Li and Ba sulfates and carbonates studied by X-ray photoelectron spectroscopy

Contarini

Rabalais

1985

Journal of Electron Spectroscopy and Related Phenomena

107

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Determination of the chemical state of palladium in PdNa-X zeolite by electron spin resonance and x-ray photoelectron spectroscopy

Narayana¹,

Michalik²,

Contarini³

et al. 1985

J. Phys. Chem.

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S. Contarini

Ion-beam-induced chemical changes in the oxyanions (Moyn-) and oxides (Mox) where M = chromium, molybdenum, tungsten, vanadium, niobium and tantalum

XPS study on the dispersion of carbon additives in silicon carbide powders

Electron-, x-ray-, and ion-stimulated decomposition of nitrate salts

Ion bombardment-induced decomposition of Li and Ba sulfates and carbonates studied by X-ray photoelectron spectroscopy

Determination of the chemical state of palladium in PdNa-X zeolite by electron spin resonance and x-ray photoelectron spectroscopy

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