Stephen W. Gaarenstroom scite author profile

The factors which influence chemical shifts are examined in order to elucidate the cause of the anomalous chemical shifts for Cd and Ag oxides. The effects of extra-atomic relaxation are accounted for using a procedure employing experimental Auger and binding energies. Atomic partial ionic charges for some simple Cd, Ag, and Zn compounds are calculated from experimental binding energies using a model which includes the effects of lattice potentials and extra-atomic relaxation. Inclusion of extra-atomic relaxation effects did not have a drastic effect on the relative ionicities computed for these selected compounds. However, for CdO, a large extra-atomic relaxation energy contribution reduces the binding energy by 0.5 eV more than is predicted from nearest neighbor electronegativity arguments.

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X-ray photoelectron spectroscopic studies of cadmium- and silver-oxygen surfaces

Hammond

1975

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Quantitative thin‐film analysis with an energy‐dispersive x‐ray detector

Waldo

Militello

Gaarenstroom

1993

Surface & Interface Analysis

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Recent mathematical approximations of &pz), the depth distribution of electron-excited x-rays, have opened up the possibility of accurate quantitative analysis of thin-film specimens by electron beam techniques. This method has been used extensively in electron probe microanalysis. This paper demonstrates quantitative analyses of thin films wing energydispersive x-ray analysis (EDS) coupled with the #(pz) methid. Metal and oxide films were analyzed by several techniques, including electron probe microanalysis (EPMA), Rutherford backscattering spectroscopy (RBS), x-ray photoelectron spectroscopy (XPS), transmission electron microscopy (TEM), spectroscopic ellipsometry (SE) and x-ray fluorescence spectroscopy (XRF); the results were compared with those obtained from the EDS thin-film analysis. In the case of A120, films, EDS film tbickness results agree to within +4%, +7% and f9% of the TEM, EPMA and SE results, respectively. For metal films, the EDS results agree to within f 12% (thicknesses) and f 7% (composition) of the RBS, EPMA and XRF results..

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Manganese Dioxide (MnO2) by XPS

Militello

Gaarenstroom

2001

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Principal component analysis of Auger line shapes at solid—solid interfaces

Gaarenstroom

1981

Applications of Surface Science

120

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