期刊论文详细信息
Observation of a charge delocalization from Se vacancies in Bi2Se3: A positron annihilation study of native defects
Article
关键词: DENSITY-FUNCTIONAL THEORY;    HGTE QUANTUM-WELLS;    SINGLE DIRAC CONE;    TOPOLOGICAL INSULATORS;    TEMPERATURE-DEPENDENCE;    DISLOCATIONS;    SURFACE;    STATES;    SEMICONDUCTORS;    SPECTRA;   
DOI  :  10.1103/PhysRevB.94.014117
来源: SCIE
【 摘 要 】

By means of positron annihilation lifetime spectroscopy, we have investigated the native defects present in Bi2Se3, which belongs to the family of topological insulators. We experimentally demonstrate that selenium vacancy defects (VSe1) are present in Bi2Se3 as-grown samples, and that their charge is delocalized as temperature increases. At least from 100 K up to room temperature both V-Se1(0) and V(Se1)(+)charge states coexist. The observed charge delocalization determines the contribution of V-Se1 defects to the n-type conductivity of Bi2Se3. These findings are supported by theoretical calculations, which show that vacancies of nonequivalent Se1 and Se2 selenium atoms are clearly differentiated by positron annihilation lifetime spectroscopy, enabling us to directly detect and quantify the most favorable type of selenium vacancy. In addition to open-volume defects, experimental data indicate the presence of defects that act as shallow traps, suggesting that more than one type of native defects coexist in Bi2Se3. As will be discussed, the presence of a dislocation density around 1010 cm(-2) could be the source of the detected shallow traps. Understanding the one-dimensional defects and the origin of the charge delocalization that leads Bi2Se3 to be an n-type semiconductor will help in the development of high-quality topological insulators based on this material.

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