Abstract
We describe the first demonstration of PbTe-based, cross-plane quantum-dot superlattice (QDSL) unicouple thermoelectric generator devices fabricated from nanostructured, thick-film materials (∼100μm). Both n- and p-type QDSL materials were investigated. With ∼220K temperature difference across small thermoelements (∼95μm length, 4mm2 cross-sectional area), electrical power outputs up to 89mW and power densities up to 2.2W∕cm2 have been demonstrated for both n- and p-type materials. The devices consist of a substrate-free, bulklike slab of molecular beam epitaxy grown PbSeTe∕PbTe QDSL material as the n- or p-type leg and a copper wire as the other p-type leg.
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