Temperature-dependent EXAFS analysis of embedded Pt nanocrystals

Giulian, R; Araujo, LL; Kluth, P; Sprouster, DJ; Schnohr, CS; Foran, GJ; Ridgway, MC

Temperature-dependent EXAFS analysis of embedded Pt nanocrystals

Date

2009-04-15

Authors

Publisher

Institute of Physics

Abstract

The vibrational and thermal properties of embedded Pt nanocrystals (NCs) have been investigated with temperature-dependent extended x-ray absorption fine structure (EXAFS) spectroscopy. NCs of diameter 1.8-7.4 nm produced by ion implantation in amorphous SiO2 were analysed over the temperature range 20-295 K. An increase in Einstein temperature (similar to 194 K) relative to that of a Pt standard (similar to 179 K) was evident for the smallest NCs while those larger than similar to 2.0 nm exhibited values comparable to bulk material. Similarly, the thermal expansion of interatomic distances was lowest for small NCs. While the amorphous SiO2 matrix restricted the thermal expansion of interatomic distances, it did not have a significant influence on the mean vibrational frequency of embedded Pt NCs. Instead, the latter was governed by finite-size effects or, specifically, capillary pressure. © 2009, Institute of Physics

Keywords

Absorption, Thermal expansion, Ion implantation, Vibrational states, Silica, Platinum

Citation

Giulian, R., Araujo, L. L., Kluth, P., Sprouster, D. J., Schnohr, C. S., Foran, G. J., & Ridgway, M. C. (2009). Temperature-dependent EXAFS analysis of embedded Pt nanocrystals. Journal of Physics-Condensed Matter, 21(15), 155302. doi:10.1088/0953-8984/21/15/155302