S. Tougaard scite author profile

The electronic and optical properties of Cu, CuO and Cu(2)O were studied by x-ray photoelectron spectroscopy (XPS) and reflection electron energy-loss spectroscopy (REELS). We report detailed Cu 2p, Cu LVV, O 1s and O KLL spectra which are in good agreement with previous results. REELS spectra, recorded for primary energies in the range from 150 to 2000 eV, were corrected for multiple inelastically scattered electrons to determine the effective inelastic scattering cross section. The dielectric functions and optical properties were determined by comparing the experimental inelastic electron scattering cross section with a simulated cross section calculated within the semi-classical dielectric response model in which the only input is Im(-1/ε) by using the QUEELS-ε(k,ω)-REELS software package. By Kramers-Kronig transformation of the determined Im(-1/ε), the real and imaginary parts (ε(1) and ε(2)) of the dielectric function, and the refractive index n and extinction coefficient k were determined for Cu, CuO, and Cu(2)O in the 0-100 eV energy range. Observed differences between Cu, CuO and Cu(2)O are mainly due to modifications of the 3d and O 2p electron configurations.

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Model for quantitative analysis of reflection-electron-energy-loss spectra: Angular dependence

Yubero

Sanz

Ramskov³

et al. 1996

Phys. Rev. B

171

199

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Model for quantitative analysis of reflection-electron-energy-loss spectra

1992

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Differential inelastic electron scattering cross sections from experimental reflection electron-energy-loss spectra: Application to background removal in electron spectroscopy

1987

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S. Tougaard

Systematic and collaborative approach to problem solving using X-ray photoelectron spectroscopy

Electronic and optical properties of Cu, CuO and Cu₂O studied by electron spectroscopy

Model for quantitative analysis of reflection-electron-energy-loss spectra: Angular dependence

Model for quantitative analysis of reflection-electron-energy-loss spectra

Differential inelastic electron scattering cross sections from experimental reflection electron-energy-loss spectra: Application to background removal in electron spectroscopy

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S. Tougaard

Systematic and collaborative approach to problem solving using X-ray photoelectron spectroscopy

Electronic and optical properties of Cu, CuO and Cu2O studied by electron spectroscopy

Model for quantitative analysis of reflection-electron-energy-loss spectra: Angular dependence

Model for quantitative analysis of reflection-electron-energy-loss spectra

Differential inelastic electron scattering cross sections from experimental reflection electron-energy-loss spectra: Application to background removal in electron spectroscopy

Contact Info

Product

Resources

About

Electronic and optical properties of Cu, CuO and Cu₂O studied by electron spectroscopy