10.1021/jp510684s.s001
Lidiya
S. Kibis
Lidiya
S.
Kibis
Andrey I. Stadnichenko
Andrey I.
Stadnichenko
Sergey
V. Koscheev
Sergey
V.
Koscheev
Vladimir I. Zaikovskii
Vladimir I.
Zaikovskii
Andrei I. Boronin
Andrei I.
Boronin
Highly
Oxidized Gold Nanoparticles: In Situ Synthesis,
Electronic Properties, and Reaction Probability Toward CO Oxidation
American Chemical Society
2015
bulklike gold oxide
CO
reaction probability
particle size
binding energy Eb
transmission electron microscopy
Oxidized Gold Nanoparticles
gold nanoparticles
2015-02-05 00:00:00
Journal contribution
https://acs.figshare.com/articles/journal_contribution/Highly_Oxidized_Gold_Nanoparticles_In_Situ_Synthesis_Electronic_Properties_and_Reaction_Probability_Toward_CO_Oxidation/2209624
Highly oxidized gold nanoparticles
prepared by RF-discharge under
an oxygen atmosphere were studied by X-ray photoelectron spectroscopy
and transmission electron microscopy depending on the particle size.
A surface-like gold oxide was found in the case of small nanoparticles
(1–2 nm) obtained at the first steps of deposition. With an
increase of the particle size up to 5 nm, a bulklike gold oxide was
formed. The O 1s spectra exhibited an oxygen peak at binding energy <i>E</i><sub>b</sub> = 529.4 eV for the surface-like oxide and <i>E</i><sub>b</sub> = 530.7 eV for the bulklike gold-oxide. The
reaction probability of oxidized gold nanoparticles was examined in
the reaction of CO oxidation at room temperature. The surface-like
gold oxide interacted with CO with a high reaction probability of
approximately 0.005, while CO interaction with the bulklike oxide
was characterized by an induction period with lower reaction probability
(0.001). The mechanisms of the interaction of oxidized gold nanoparticles
with CO depending on its size are discussed.