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Pressure-Induced Disordering in SnO2 Nanoparticles

Author:
Girao, Helainne T.  Cornier, Thibaut  Daniele, Stephane  Debord, Regis  Caravaca, Maria A.  Casali, Ricardo A.  Melinon, Patrice  Machon, Denis  


Journal:
JOURNAL OF PHYSICAL CHEMISTRY C


Issue Date:
2017


Abstract(summary):

The high-pressure behavior of SnO2 nanoparticles (similar to 2.8 nm) was studied up to approximately 20 GPa using Raman spectroscopy in a diamond anvil cell and ab initio simulations. Above similar to 7 GPa, the disordering, initially located at the surface, was found to propagate to the core of nanoparticles, ultimately leading to amorphous-like spectra. This observation can be interpreted as a disordering of the oxygen sublattice sensitively probed by Raman spectroscopy in contrast to powder X-ray diffraction techniques. The low -frequency mode can'be related to the nanopartide vibration as an elastic isotropic sphere motion. The pressure-induced shift of this mode allows for the constraining of the mechanical properties data reported in the literature.


Page:
15463---15471


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