2004
DOI: 10.1016/j.elspec.2003.10.002
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Electron energy loss spectroscopic investigation of Ni metal and NiO before and after surface reduction by Ar+ bombardment

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Cited by 85 publications
(60 citation statements)
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“…[24] Recent work on oxide films grown by exposure to only O 2 suggests that this peak is likely to be due to defective sites within the NiO structure. [22] Other references concur with this assignment [8] including results from nuclear reaction analyses (NRA) that rule out the possibility of Ni(OH) 2 or NiOOH. [22] A small peak at 532.8 eV (±0.1 eV, FWHM constrained to that of the defective site peak at 531.1 eV) may be due to adsorbed water or possibly adsorbed O 2 .…”
Section: Standard Samplesmentioning
confidence: 91%
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“…[24] Recent work on oxide films grown by exposure to only O 2 suggests that this peak is likely to be due to defective sites within the NiO structure. [22] Other references concur with this assignment [8] including results from nuclear reaction analyses (NRA) that rule out the possibility of Ni(OH) 2 or NiOOH. [22] A small peak at 532.8 eV (±0.1 eV, FWHM constrained to that of the defective site peak at 531.1 eV) may be due to adsorbed water or possibly adsorbed O 2 .…”
Section: Standard Samplesmentioning
confidence: 91%
“…A major O 1s peak, approximately 30% of the total O 1s spectral area, at the binding energy of 531.1 eV (±0.04-eV FWHM ≈1.5 eV for both pass energies) has been proposed to be due to defective sites within the oxide crystal, [8,21,22] adsorbed oxygen, [23] or hydroxide species. [24] Recent work on oxide films grown by exposure to only O 2 suggests that this peak is likely to be due to defective sites within the NiO structure.…”
Section: Standard Samplesmentioning
confidence: 99%
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“…a lower binding energy and thus the appearance of the satellite. An alternative explanation of the 6 eV satellite in nickel given in recent work based on reflection electron energy loss spectroscopy (REELS) [33] and energy loss spectroscopy (ELS) work [34] is to assign it to surface plasmon and shake-up losses. The ejected photoelectron passing through the solid could lead to a collective excitation of the conduction electrons, resulting in a characteristic energy loss, thus to plasmons.…”
Section: Nickel 2p Peak and Its Satellitementioning
confidence: 98%