Gas-Phase Oxidation Reactions of Neptunium and Plutonium Ions Investigated via Fourier Transform Ion Cyclotron Resonance Mass Spectrometry
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Abstract
The first gas-phase ion chemistry studies of the transuranium actinides Np and Pu by Fourier Transform Ion Cyclotron Resonance Mass Spectrometry (FTICR-MS) have been performed. Reactions of An+ and AnO+ (An = Th, U, Np, and Pu) with N2O, C2H4O (ethylene oxide), H2O, O2, CO2, NO, and CH2O have been studied, with a focus on the oxidation of transuranium ions. All the An+ ions formed AnO+ with all the oxidants studied, with the exception of Pu+ with CH2O, in accord with the known bond dissociation energies, BDE(An+−O). The reaction efficiencies appear to correlate with the magnitude of the promotion energies from the ground states to reactive-state configurations of the An+ ions. Only N2O and C2H4O oxidized all AnO+ to AnO2+; CO2 and NO oxidized only UO+; H2O and O2 oxidized UO+, NpO+, and PuO+; and CH2O was unreactive with all the AnO+ ions. The observed formation of PuO2+ from the oxidants weaker than N2O is in conflict with the literature values for BDE(OPu+−O), which we conclude are significantly too low. Charge-transfer “bracketing” experiments to determine the ionization energy of PuO2 were performed, from which a value of 7.03 ± 0.12 eV was obtained. This IE(PuO2) is 2−3 eV lower than the literature values, but in accord with our observations for the oxidation thermodynamics.
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