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Density-functional theory study of stability and subgap states of crystalline and amorphous Zn-Sn-O

 
: Körner, W.; Elsässer, C.

:
Preprint urn:nbn:de:0011-n-2546756 (700 KByte PDF)
MD5 Fingerprint: 1cc2e48a99f01b31943b711c17e38924
Erstellt am: 5.12.2014


Thin solid films 555 (2014), S.81-86
ISSN: 0040-6090
International Symposia on Transparent Conductive Materials (TCM) <2012, Crete>
European Commission EC
FP7-NMP; 246334; ORAMA
Englisch
Zeitschriftenaufsatz, Konferenzbeitrag, Elektronische Publikation
Fraunhofer IWM ()
transparent conducting oxide; amorphous semiconductor oxide; ZnSnO (ZTO); amorphous; point defects; subgap states; deep levels; band edge tails

Abstract
We present a density-functional theory analysis of stoichiometric and nonstoichiometric crystalline and amorphous Zn-Sn-O systems (c-ZTO, a-ZTO) which connects structural features with electronic properties in order to contribute to the understanding of the recently discovered subgap states in a-ZTO and other amorphous oxide films. In particular we show that defect levels originating from oxygen vacancies are too high in energy to be responsible for levels above the valence band edge. We offer an explanation for the experimentally seen decrease of subgap states with increasing oxygen content. From our analysis of the energetic stability of c- and a-ZTO compounds with different Zn/Sn ratios the decomposition of ZnSnO3 into Zn2SnO4 and SnO2 at sufficiently high temperatures is conceivable. Moreover, our results indicate that a lowering of the mass density of an a-ZTO sample leads to a rising of the conduction band edge.

: http://publica.fraunhofer.de/dokumente/N-254675.html