Enhanced efficiency of p -type doping by band-offset effect in wurtzite and zinc-blende GaAs/InAs-core-shell nanowires

Enhanced efficiency of p -type doping by band-offset effect in wurtzite and zinc-blende GaAs/InAs-core-shell nanowires

Using first principles calculation based on density-functional theory, we investigated p-type electronic structures and the doping mechanism in wurtzite (WZ) and zinc-blende (ZB) GaAs/InAs-core-shell nanowires (NWs) along the [0001] and [111] directions, respectively. Comparing the doping in WZ and...

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Veröffentlicht in:Journal of applied physics 2014-09, Vol.116 (9)
Hauptverfasser: Song, Changsheng, Wang, Jiqing, Lin, Weixian, Mao, Huibing, Zhao, Qiang, Yang, Pingxiong, Xing, Huaizhong
Format: Artikel
Sprache:eng
Schlagworte:
Applied physics
BOUND STATE
CLASSICAL AND QUANTUM MECHANICS, GENERAL PHYSICS
COMPARATIVE EVALUATIONS
DENSITY FUNCTIONAL METHOD
Doping
ELECTRONIC STRUCTURE
First principles
GALLIUM ARSENIDES
INDIUM ARSENIDES
Nanowires
QUANTUM WIRES
Valence band
Wurtzite
ZINC SULFIDES
Zincblende
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Zusammenfassung:Using first principles calculation based on density-functional theory, we investigated p-type electronic structures and the doping mechanism in wurtzite (WZ) and zinc-blende (ZB) GaAs/InAs-core-shell nanowires (NWs) along the [0001] and [111] directions, respectively. Comparing the doping in WZ and ZB core-shell NWs, we found it is easier and more stable to realize dopant in WZ NWs. Due to the type I band-offset, p-type doping in the GaAs-core of GaAscore/InAsshell for both WZ and ZB NWs makes that the valence band-edge electrons in the InAs-shell can spontaneously transfer to the impurity states, forming one-dimensional hole gas. In particular, this process accompanies with a reverse transition in WZ core-shell nanowire due to the existence of antibonding and bonding states.
ISSN:0021-8979
1089-7550
DOI:10.1063/1.4894442