Title :
Theoretical analysis of SnO2 nanobelt thermal conductivity
Author :
Mingo, N. ; Yu, Ch ; Hao, Q. ; Shi, Li
Author_Institution :
NASA Ames Res. Center, Moffett Field, CA, USA
Abstract :
Analysis of SnO2 nanobelt thermal conductivity data is performed by two methods: the adjustable cutoff Callaway method, and the real dispersion method. Analyses suggest a possible enhancement of the Umklapp scattering rate of 3 to 6 times that in the bulk material, although hotspots or other contact effects are not ruled out as alternative effects affecting the curves. The thermal conductivity of a 37 nm thick SnO2 nanobelt was measured. In this paper we show two different, preliminary analyses of the data. An appendix briefly explains the approaches used in the analyses.
Keywords :
nanostructured materials; phonon dispersion relations; thermal conductivity; tin compounds; umklapp process; 37 nm; SnO2; SnO2 nanobelt thermal conductivity; Umklapp scattering; contact effects; cutoff Callaway method; hotspots; phonon dispersion; Belts; Conductivity measurement; Dispersion; Frequency; Phonons; Scattering; Shape measurement; Slabs; Temperature; Thermal conductivity;
Conference_Titel :
Nanotechnology, 2003. IEEE-NANO 2003. 2003 Third IEEE Conference on
Print_ISBN :
0-7803-7976-4
DOI :
10.1109/NANO.2003.1231766
