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Size‐Dependent Room Temperature Oxidation of Tin Particles
Author(s) -
Sutter Eli,
IvarsBarcelo Francisco,
Sutter Peter
Publication year - 2014
Publication title -
particle and particle systems characterization
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.877
H-Index - 56
eISSN - 1521-4117
pISSN - 0934-0866
DOI - 10.1002/ppsc.201300352
Subject(s) - nanoparticle , materials science , amorphous solid , transmission electron microscopy , oxide , electric field , tin , stoichiometry , nanoscopic scale , chemical engineering , kinetics , chemical physics , nanotechnology , crystallography , chemistry , metallurgy , physics , quantum mechanics , engineering
Using transmission electron microscopy, the size‐dependent room temperature oxidation of tin nanoparticles is studied. The oxide that forms during room temperature oxidation of Sn particles is amorphous SnO, and it retains this stoichiometry and structure over extended time periods. From the investigation of arrays of Sn nanoparticles with broad size distribution, under identical conditions, the Sn oxide thickness is evaluated as a function of size and oxidation time. The oxide thickness depends strongly on the size of the Sn nanoparticles, which is in excellent agreement with predictions for a Mott–Cabrera model corrected for a non‐uniform electric field. The results demonstrate the accelerated oxidation kinetics of nanoscale particles with high curvature, due to the amplified electric field at the interface to a continuously shrinking metal core.