Electrical properties of Bi-implanted amorphous chalcogenide films

Electrical properties of Bi-implanted amorphous chalcogenide films

The impact of Bi implantation on the conductivity and the thermopower of amorphous chalcogenide films is investigated. Incorporation of Bi in Ge-Sb-Te and GeTe results in enhanced conductivity. The negative Seebeck coefficient confirms onset of the electron conductivity in GeTe implanted with Bi at...

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Veröffentlicht in:arXiv.org 2014-12
Hauptverfasser: Fedorenko, Yanina G, Hughes, Mark A, Colaux, Julien L, Jeynes, C, Gwilliam, Russell M, Homewood, Kevin, Gholipour, B, Yao, J, Hewak, Daniel W, Lee, Tae-Hoon, Elliott, Stephen R, Curry, Richard J
Format: Artikel
Sprache:eng
Schlagworte:
Antimony
Bismuth
Chalcogenides
Deactivation
Defects
Electrical properties
Electrical resistivity
Electron conductivity
Ion implantation
Seebeck effect
Tellurium
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Zusammenfassung:The impact of Bi implantation on the conductivity and the thermopower of amorphous chalcogenide films is investigated. Incorporation of Bi in Ge-Sb-Te and GeTe results in enhanced conductivity. The negative Seebeck coefficient confirms onset of the electron conductivity in GeTe implanted with Bi at a dose of 2x1016 cm-2. The enhanced conductivity is accompanied by defect accumulation in the films upon implantation as is inferred by using analysis of the space-charge limited current. The results indicate that native coordination defects in lone-pair semiconductors can be deactivated by means of ion implantation, and higher conductivity of the films stems from additional electrically active defects created by implantation of bismuth.
ISSN:2331-8422