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Anisotropic thermoelectric transport in textured Sb1.5Bi0.5Te3 nanomaterial synthesized by facile bottom-up physical process

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dc.contributor.author Bose, R. S. C. en_US
dc.contributor.author Sheoran, V. en_US
dc.contributor.author Vaishnavi, P. S. H. en_US
dc.contributor.author Prem, D. S. en_US
dc.contributor.author CHAKRAVARTY, S. en_US
dc.contributor.author Raman, R. en_US
dc.contributor.author Babu, D. A. en_US
dc.contributor.author Saharan, Pratibha en_US
dc.contributor.author NAIR, SUNIL en_US
dc.contributor.author Ram, J. en_US
dc.date.accessioned 2021-03-04T11:47:02Z
dc.date.available 2021-03-04T11:47:02Z
dc.date.issued 2021-04 en_US
dc.identifier.citation Journal of Alloys and Compounds, 859, 157828. en_US
dc.identifier.issn 0925-8388 en_US
dc.identifier.issn 1873-4669 en_US
dc.identifier.uri http://dr.iiserpune.ac.in:8080/xmlui/handle/123456789/5703
dc.identifier.uri https://doi.org/10.1016/j.jallcom.2020.157828 en_US
dc.description.abstract High anisotropy in thermal conductivity (κ) coupled with anisotropy in Seebeck coefficient (S) has resulted in peak zT value of 0.85 at 150 °C in the textured Sb1.5Bi0.5Te3 nanomaterial in perpendicular to the preferential ab-plane direction. Further, strong and opposite temperature dependences in electrical conductivity (σ) and thermal conductivity, in the ranges of 1.6–1.8 and 1.4–1.8 respectively, have resulted in better average zT value of 0.72 in the 50°C–250 °C temperature range along this direction, where zT = (S2σ/κ)T. The high anisotropy in Seebeck coefficient in the range of 0.82–0.84 is peculiar, which may be attributed to differential scattering for holes and electrons by oxide interface on the ab-planes. Sample temperature and laser power dependent Raman spectroscopy have revealed that Eg(2) mode is dominant phonon transfer mode in this material and therefore, scattering of Eg(2) mode phonons may be critical in obtaining thermal conductivity reduction. The nanomaterial has been synthesized by a facile bottom-up physical synthesis process and consolidated by direct current hot pressing. Our synthesis process requires controlled melting of ingredient metals at just above their melting points-rocking and air quenching. The synthesized nanomaterial hardly experiences its melting point in this process. This energy efficient process does not require any kind of milling and produces single phase nanomaterial in unique plate-like morphology, which easily results in high texturing. This texturing has been studied by XRD analysis as well as SEM images and is also correlated with texture factor in the thermoelectric measurements. HRTEM image has shown high grain boundary density within the plates, but these have not been able to scatter phonons for thermal conductivity reduction within ab-plane. This is possibly due to smaller than optimum size of these randomly oriented grains. Such features also offer possibility of zT enhancement along preferential ab-plane direction in the textured specimen. Further, the study of anisotropy in power output density and thereby, engineered power factor under practical temperature gradients is also presented. The process also offers simplicity in obtaining further thermal conductivity reduction in perpendicular to the preferential ab-plane direction by use of tellurium or semiconductor interface layer or by use of metallic cluster in the ab-plane direction. en_US
dc.language.iso en en_US
dc.publisher Elsevier B.V. en_US
dc.subject Thermoelectric en_US
dc.subject Nanomaterial en_US
dc.subject Anisotropy en_US
dc.subject Texture en_US
dc.subject Physical en_US
dc.subject Synthesis en_US
dc.subject 2021-MAR-WEEK1 en_US
dc.subject TOC-MAR-2021 en_US
dc.subject 2021 en_US
dc.title Anisotropic thermoelectric transport in textured Sb1.5Bi0.5Te3 nanomaterial synthesized by facile bottom-up physical process en_US
dc.type Article en_US
dc.contributor.department Dept. of Physics en_US
dc.identifier.sourcetitle Journal of Alloys and Compounds en_US
dc.publication.originofpublisher Foreign en_US


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