Structural effects on the lattice thermal conductivity of ternary antimony- and bismuth-containing chalcogenide semiconductors

Morelli, Donald T; Cain, Jeffrey D.; Skoug, Eric J.

doi:10.1063/1.3425886

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Structural effects on the lattice thermal conductivity of ternary antimony- and bismuth-containing chalcogenide semiconductors

Author(s): Eric J. Skoug , Jeffrey D. Cain , Donald T. Morelli

Publication date Created: May 03 2010

Publication date (Print): May 03 2010

Journal: Applied Physics Letters

Publisher: AIP Publishing

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Quantum dot superlattice thermoelectric materials and devices.

T. C. Harman, P J Taylor, M Walsh … (2002)

PbSeTe-based quantum dot superlattice structures grown by molecular beam epitaxy have been investigated for applications in thermoelectrics. We demonstrate improved cooling values relative to the conventional bulk (Bi,Sb)2(Se,Te)3 thermoelectric materials using a n-type film in a one-leg thermoelectric device test setup, which cooled the cold junction 43.7 K below the room temperature hot junction temperature of 299.7 K. The typical device consists of a substrate-free, bulk-like (typically 0.1 millimeter in thickness, 10 millimeters in width, and 5 millimeters in length) slab of nanostructured PbSeTe/PbTe as the n-type leg and a metal wire as the p-type leg.