The local structure of amorphous SnO2 by electron microscope techniques

15 July 1986

journal article
research article
Published by AIP Publishing in Journal of Applied Physics

Vol. 60 (2) , 602-606
https://doi.org/10.1063/1.337454

Abstract

Electron microscopy/diffraction and electron energy‐loss spectroscopy, including low‐loss and core‐edge structures, were used to characterize and study the atomic arrangement in amorphous SnO₂ prepared by reactive sputtering. The gross features in the energy‐loss spectra are the same as for crystalline SnO₂, whereas the fine structures are smeared out. The diffraction pattern of amorphous SnO₂ is qualitatively well described by assuming each tin atom to be surrounded by six oxygen atoms at a distance of 2.05 Å, two tin atoms at 3.19 Å, and eight tin atoms at 3.71 Å, which suggests the same local atomic arrangement as in crystalline SnO₂.

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