Interface-Dominated Topological Transport in Nanograined Bulk Bi2 Te3
Izadi S, Han JW, Salloum S, Wolff U, Schnatmann L, Asaithambi A, Matschy S, Schlorb H, Reith H, Perez N, Nielsch K, et al. (2021)
Small : 2103281.
Zeitschriftenaufsatz
| E-Veröff. vor dem Druck | Englisch
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Izadi, SepidehUniBi;
Han, Jeong Woo;
Salloum, Sarah;
Wolff, Ulrike;
Schnatmann, LauritzUniBi;
Asaithambi, Aswin;
Matschy, Sebastian;
Schlorb, Heike;
Reith, Heiko;
Perez, Nicolas;
Nielsch, Kornelius;
Schulz, Stephan
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Abstract / Bemerkung
3D topological insulators (TI) host surface carriers with extremely high mobility. However, their transport properties are typically dominated by bulk carriers that outnumber the surface carriers by orders of magnitude. A strategy is herein presented to overcome the problem of bulk carrier domination by using 3D TI nanoparticles, which are compacted by hot pressing to macroscopic nanograined bulk samples. Bi2 Te3 nanoparticles well known for their excellent thermoelectric and 3D TI properties serve as the model system. As key enabler for this approach, a specific synthesis is applied that creates nanoparticles with a low level of impurities and surface contamination. The compacted nanograined bulk contains a high number of interfaces and grain boundaries. Here it is shown that these samples exhibit metallic-like electrical transport properties and a distinct weak antilocalization. A downward trend in the electrical resistivity at temperatures below 5 K is attributed to an increase in the coherence length by applying the Hikami-Larkin-Nagaoka model. THz time-domain spectroscopy reveals a dominance of the surface transport at low frequencies with a mobility of above 103 cm2 V-1 s-1 even at room temperature. These findings clearly demonstrate that nanograined bulk Bi2 Te3 features surface carrier properties that are of importance for technical applications. © 2021 The Authors. Small published by Wiley-VCH GmbH.
Erscheinungsjahr
2021
Zeitschriftentitel
Small
Art.-Nr.
2103281
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1613-6829
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Open-Access-Publikationskosten wurden durch die Universität Bielefeld im Rahmen des DEAL-Vertrags gefördert.
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https://pub.uni-bielefeld.de/record/2957902
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Izadi S, Han JW, Salloum S, et al. Interface-Dominated Topological Transport in Nanograined Bulk Bi2 Te3. Small . 2021: 2103281.
Izadi, S., Han, J. W., Salloum, S., Wolff, U., Schnatmann, L., Asaithambi, A., Matschy, S., et al. (2021). Interface-Dominated Topological Transport in Nanograined Bulk Bi2 Te3. Small , 2103281. https://doi.org/10.1002/smll.202103281
Izadi, Sepideh, Han, Jeong Woo, Salloum, Sarah, Wolff, Ulrike, Schnatmann, Lauritz, Asaithambi, Aswin, Matschy, Sebastian, et al. 2021. “Interface-Dominated Topological Transport in Nanograined Bulk Bi2 Te3”. Small : 2103281.
Izadi, S., Han, J. W., Salloum, S., Wolff, U., Schnatmann, L., Asaithambi, A., Matschy, S., Schlorb, H., Reith, H., Perez, N., et al. (2021). Interface-Dominated Topological Transport in Nanograined Bulk Bi2 Te3. Small :2103281.
Izadi, S., et al., 2021. Interface-Dominated Topological Transport in Nanograined Bulk Bi2 Te3. Small , : 2103281.
S. Izadi, et al., “Interface-Dominated Topological Transport in Nanograined Bulk Bi2 Te3”, Small , 2021, : 2103281.
Izadi, S., Han, J.W., Salloum, S., Wolff, U., Schnatmann, L., Asaithambi, A., Matschy, S., Schlorb, H., Reith, H., Perez, N., Nielsch, K., Schulz, S., Mittendorff, M., Schierning, G.: Interface-Dominated Topological Transport in Nanograined Bulk Bi2 Te3. Small . : 2103281 (2021).
Izadi, Sepideh, Han, Jeong Woo, Salloum, Sarah, Wolff, Ulrike, Schnatmann, Lauritz, Asaithambi, Aswin, Matschy, Sebastian, Schlorb, Heike, Reith, Heiko, Perez, Nicolas, Nielsch, Kornelius, Schulz, Stephan, Mittendorff, Martin, and Schierning, Gabi. “Interface-Dominated Topological Transport in Nanograined Bulk Bi2 Te3”. Small (2021): 2103281.
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