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Role of Self-Organization, Nanostructuring, and Lattice Strain on Phonon Transport in NaPb18-xSnxBiTe20 Thermoelectric Materials

Journal Article · · Journal of American Chemical Society
DOI:https://doi.org/10.1021/ja905448b· OSTI ID:1040374
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The composition and microstructure of five thermoelectric materials, PbTe, SnTe, Pb{sub 0.65}Sn{sub 0.35}Te and NaPb{sub 18-x}Sn{sub x}BiTe{sub 20} (x = 5, 9), were investigated by advanced transmission electron microcopy. We confirm that the pure PbTe, SnTe, and Pb{sub 0.65}Sn{sub 0.35}Te have a uniform crystalline structure and homogeneous compositions without any nanoscale inclusions. On the other hand, the nominal NaPb{sub 9}Sn{sub 9}BiTe{sub 20} phase contains extensive inhomogeneities and nanostructures with size distribution of 3-7 nm. We find that the chemical architecture of the NaPb{sub 13}Sn{sub 5}BiTe{sub 20} member of the series to be more complex; besides nanoscale precipitates, self-organized lamellar structures are present which were identified as PbTe and SnTe by composition analysis and transmission electron microscopy image simulations. Density functional theory calculations suggest that the arrangement of the lamellar structures conforms to the lowest total energy configuration. Geometric-phase analyses revealed large distributed elastic strain around the nanoscale inclusions and lamellar structures. We propose that interface-induced elastic perturbations in the matrix play a decisive role in affecting the phonon-propagation pathways. The interfaces further enhance phonon scattering which, in turn, reduces the lattice thermal conductivity in these systems that directly results directly in improvement in the thermoelectric figure of merit.

Research Organization:
BROOKHAVEN NATIONAL LABORATORY (BNL)
Sponsoring Organization:
USDOE SC OFFICE OF SCIENCE (SC)
DOE Contract Number:
AC02-98CH10886
OSTI ID:
1040374
Report Number(s):
BNL--91205-2010-JA; KC0201010
Journal Information:
Journal of American Chemical Society, Journal Name: Journal of American Chemical Society Journal Issue: 49 Vol. 131; ISSN 0002-7863
Country of Publication:
United States
Language:
English

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Related Subjects

36 MATERIALS SCIENCE
75 CONDENSED MATTER PHYSICS
SUPERCONDUCTIVITY AND SUPERFLUIDITY
CONFIGURATION
DENSITY FUNCTIONAL METHOD
DISTRIBUTION
ELASTICITY
ELECTRONS
LEAD TELLURIDES
MICROSTRUCTURE
NANOSTRUCTURES
PERFORMANCE
PHONONS
SCATTERING
STRAINS
THERMAL CONDUCTIVITY
THERMOELECTRIC MATERIALS
TIN TELLURIDES
TRANSMISSION ELECTRON MICROSCOPY
TRANSPORT