2018
DOI: 10.1021/acsami.8b01719
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Thermoelectric Performance of Sb2Te3-Based Alloys is Improved by Introducing PN Junctions

Abstract: Interface engineering has been demonstrated to be an effective strategy for enhancing the thermoelectric (TE) performance of materials. However, a very typical interface in semiconductors, that is, the PN junction (PNJ), is scarcely adopted by the thermoelectrical community because of the coexistence of holes and electrons. Interestingly, our explorative results provide a definitively positive case that appropriate PNJs are able to enhance the TE performance of p-type SbTe-based alloys. Specifically, owing to … Show more

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Cited by 45 publications
(32 citation statements)
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“…Due to the different n‐ and p‐type nature of semiconductor materials, PN junctions at the interfaces can be formed when different matrix types are dispersed in a semiconductor material. According to the schematic [ 129 ] of a PN junction illustrated in Figure 11 a and 11b, two kinds of majority carriers exist in different n‐ and p‐type materials, and the built‐in electric field will be established after voltage is applied. The band alignment in the interface will yield an ultrahigh interface potential, allowing the carrier transport to occur only along the homogeneous junctions.…”
Section: Discontinuous Interface Modificationmentioning
confidence: 99%
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“…Due to the different n‐ and p‐type nature of semiconductor materials, PN junctions at the interfaces can be formed when different matrix types are dispersed in a semiconductor material. According to the schematic [ 129 ] of a PN junction illustrated in Figure 11 a and 11b, two kinds of majority carriers exist in different n‐ and p‐type materials, and the built‐in electric field will be established after voltage is applied. The band alignment in the interface will yield an ultrahigh interface potential, allowing the carrier transport to occur only along the homogeneous junctions.…”
Section: Discontinuous Interface Modificationmentioning
confidence: 99%
“…In principle, the reduced n in composites with PN junctions is mainly attributed to the combination of holes and electrons during the formation of the carrier‐depletion layers. [ 129 ] The decreased μ originates from the forbidden transport of electrons and holes by the built‐in electric field. This decrease in carrier concentration and Hall mobility will improve the electrical properties as a result.…”
Section: Discontinuous Interface Modificationmentioning
confidence: 99%
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“…Another interesting aspect of p–n transition in the present case is gradual lowering of Seebeck coefficient with increasing temperature from positive value at 300 K to zero at 487K and negative value at high temperature. This can be explained by the contributions of both p‐ and n‐type charge carriers in the electrical transport hence total Seebeck coefficient can be expressed as α=true(αpσp+αnσntrue)/true(σp+σntrue) . Here α p and α n are the contributions of holes and electrons to the total Seebeck coefficient.…”
Section: Comparison Of the Elemental Composition Obtained By Xps And mentioning
confidence: 99%