Atomic-scale chemical mapping of copper dopants in Bi2Te2.7Se0.3 thermoelectric alloy
- Authors
- Kim, Y.-M.[Kim, Y.-M.]; Lee, K.H.[Lee, K.H.]; Fu, L.[Fu, L.]; Oh, M.-W.[Oh, M.-W.]; Yang, S.-H.[Yang, S.-H.]; Ning, S.[Ning, S.]; Han, G.[Han, G.]; Kim, M.Y.[Kim, M.Y.]; Kim, J.-S.[Kim, J.-S.]; Jeong, M.[Jeong, M.]; Jang, J.[Jang, J.]; Lee, E.[Lee, E.]; Okunishi, E.[Okunishi, E.]; Sawada, H.[Sawada, H.]; Kim, S.-I.[Kim, S.-I.]; Pennycook, S.J.[Pennycook, S.J.]; Lee, Y.H.[Lee, Y.H.]; Kim, S.W.[Kim, S.W.]
- Issue Date
- Mar-2021
- Publisher
- Elsevier Ltd
- Keywords
- Atomic scale mapping; Bi2Te2·7Se0.3; Excess Cu doping; STEM-EDX spectrum Imaging; Transport properties
- Citation
- Materials Today Physics, v.17
- Indexed
- SCIE
SCOPUS
- Journal Title
- Materials Today Physics
- Volume
- 17
- URI
- https://scholarworks.bwise.kr/skku/handle/2021.sw.skku/89912
- DOI
- 10.1016/j.mtphys.2021.100347
- ISSN
- 2542-5293
- Abstract
- Elemental doping is a universal strategy in controlling the functionalities of materials that strongly correlate with naturally formed atomic defects. Element-resolved chemical mapping for atomic defects has answered numerous problems on the relations between defective structures and properties. However, tracking small amounts of dopants in multicomponent bulks and clarifying their doping behaviors remain challenging. Using advanced X-ray spectroscopy, the excess Cu doping behavior in ternary Bi2Te2·7Se0.3 bulk alloy is visualized with the unprecedented detectability from sub-one atomic percent of concentration. The low content of 0.2 at.% Cu preferentially occupies the Bi site, while Cu atoms are found in three crystallographic sites of Bi2Te3 structure and van der Waals gap at high Cu content of 1.2 at.%. These behaviors explain the nontrivial role of Cu dopants on carrier generation processes and relevant thermoelectric properties of Bi2Te2·7Se0.3. The atomic-level identification should also stimulate the elucidation of diverse properties in doped nanomaterials and quantum phenomena in doped topological insulators. © 2021 Elsevier Ltd
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