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Core Level Shifts and Grain Boundary Cohesion

Published online by Cambridge University Press:  02 July 2020

D. A. Muller*
Affiliation:
Bell Labs, Lucent Technologies, 700 Mountain Avenue, Murray Hill, NJ07974
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Extract

The role of core level shifts at metallic interfaces has often been ignored in electron energy loss spectroscopy (EELS) even though very small changes in bond length can lead to large core level shifts. However, the popular interpretation of core level shifts as measures of charge transfer is highly problematic. For instance, in binary alloys systems, the core level shifts can be the same sign for both atomic constituents[l]. The simple interpretation would require that both atomic species had lost or gained charge. Further, the signs of the core level shifts can be opposite to those expected from electronegativity arguments[2]. A core level shift (CLS) is still possible, even when no charge transfer occurs. As illustrated in Fig. 1, if the valence band width is increased, the position of the center of the valence band with respect to the Fermi energy will change (as the number of electrons remains unchanged).

Type
Spatially-Resolved Characterization of Interfaces in Materials
Copyright
Copyright © Microscopy Society of America

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References

[1] Steiner, P. and Hufner, S., Acta Metall. 29, (1981) 1885.CrossRefGoogle Scholar

[2] Citrin, P.H. and Wertheim, G.K.,. Phys. Rev. B27, 3176 (1983).CrossRefGoogle Scholar

[3] Citrin, P.H. and Wertheim, G.K.,. Phys. Rev. B27, 3176 (1983).CrossRefGoogle Scholar

[4] Muller, D.A., Batson, P.E., Silcox, J., submitted to Phys. Rev. B.Google Scholar

[5] Muller, D.A., Singh, D.J., Silcox, J., Phys. Rev. B, April (1998).Google Scholar

[6] Work performed at Cornell was supported from DOE grant DE-FG02-87ER45322.Google Scholar