2015
DOI: 10.1002/cssc.201403485
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Boundary Engineering for the Thermoelectric Performance of Bulk Alloys Based on Bismuth Telluride

Abstract: Thermoelectrics, which transports heat for refrigeration or converts heat into electricity directly, is a key technology for renewable energy harvesting and solid-state refrigeration. Despite its importance, the widespread use of thermoelectric devices is constrained because of the low efficiency of thermoelectric bulk alloys. However, boundary engineering has been demonstrated as one of the most effective ways to enhance the thermoelectric performance of conventional thermoelectric materials such as Bi2 Te3 ,… Show more

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Cited by 73 publications
(40 citation statements)
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References 143 publications
(392 reference statements)
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“…3g). Note that these maxima are higher than those obtained with typical Bi 2 Te 3 -based bulk ingots ( ZT ≈0.8–1.0)123 and are close to the recently reported nanostructured TE materials ( ZT ≈1.1–1.9)464748. Furthermore, these values are highest among the reported TE materials based on TE inks or pastes, and 3–4 times greater than anything that has been previously reported for printed TE materials (Fig.…”
Section: Resultssupporting
confidence: 88%
“…3g). Note that these maxima are higher than those obtained with typical Bi 2 Te 3 -based bulk ingots ( ZT ≈0.8–1.0)123 and are close to the recently reported nanostructured TE materials ( ZT ≈1.1–1.9)464748. Furthermore, these values are highest among the reported TE materials based on TE inks or pastes, and 3–4 times greater than anything that has been previously reported for printed TE materials (Fig.…”
Section: Resultssupporting
confidence: 88%
“…Moreover, such a layered structure can lead to strongly anisotropic carrier and phonon transport properties within and cross layers . Generally, pellet‐shaped Bi 2 Te 3 ‐based thermoelectric materials process zT values of ≈1 along the in‐plane direction …”
Section: Comparison Of Zt (T = 300 K) Of Bi2te27se03 Films Preparedmentioning
confidence: 99%
“…Several new materials have been identified and their thermoelectric properties are continuously improved over time by different approaches. [29] Figure5shows examples of complex crystal structures. One of the promising efforts introduced to improvet he properties is designing com-plex structured materials.…”
Section: Recent Developmentsinthermoelectric Researchmentioning
confidence: 99%
“…One such material is LiCoO 2 and its crystal structure is represented in Figure 6. [29,33] As chematic illustration of how impurity energy levels can change the DOS of the host materiali sg iven in Figure 7. Particularly,t he concept of resonant level dopingh as been av ery effective approach to enhance the thermoelectric performance of am aterial.…”
Section: Recent Developmentsinthermoelectric Researchmentioning
confidence: 99%