Exploring the Electronic Structure and Chemical Homogeneity of Individual Bi2Te3 Nanowires by Nano-Angle-Resolved Photoemission Spectroscopy

Due to their high surface-to-volume ratio, cylindrical Bi2Te3 nanowires are employed as model systems to investigate the chemistry and the unique conductive surface states of topological insulator nanomaterials. We report on nanoangle-resolved photoemission spectroscopy (nano-ARPES) characterization...

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Veröffentlicht in:	Nano letters 2016-07, Vol.16 (7), p.4001-4007
Hauptverfasser:	Krieg, Janina, Chen, Chaoyu, Avila, José, Zhang, Zeying, Sigle, Wilfried, Zhang, Hongbin, Trautmann, Christina, Asensio, Maria Carmen, Toimil-Molares, Maria Eugenia
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creator	Krieg, Janina Chen, Chaoyu Avila, José Zhang, Zeying Sigle, Wilfried Zhang, Hongbin Trautmann, Christina Asensio, Maria Carmen Toimil-Molares, Maria Eugenia
description	Due to their high surface-to-volume ratio, cylindrical Bi2Te3 nanowires are employed as model systems to investigate the chemistry and the unique conductive surface states of topological insulator nanomaterials. We report on nanoangle-resolved photoemission spectroscopy (nano-ARPES) characterization of individual cylindrical Bi2Te3 nanowires with a diameter of 100 nm. The nanowires are synthesized by electrochemical deposition inside channels of ion-track etched polymer membranes. Core level spectra recorded with submicron resolution indicate a homogeneous chemical composition along individual nanowires, while nano-ARPES intensity maps reveal the valence band structure at the single nanowire level. First-principles electronic structure calculations for chosen crystallographic orientations are in good agreement with those revealed by nano-ARPES. The successful application of nano-ARPES on single one-dimensional nanostructures constitutes a new avenue to achieve a better understanding of the electronic structure of topological insulator nanomaterials.
doi_str_mv	10.1021/acs.nanolett.6b00400
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title	Exploring the Electronic Structure and Chemical Homogeneity of Individual Bi2Te3 Nanowires by Nano-Angle-Resolved Photoemission Spectroscopy
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