Improved Conductivity Induced by Photodesorption in SnO2 Thin Films Grown by a Sol-Gel Dip Coating Technique

Improved Conductivity Induced by Photodesorption in SnO2 Thin Films Grown by a Sol-Gel Dip Coating Technique

Thin films of undoped and Sb-doped SnO2 have been prepared by a sol-gel dip-coating technique. For the high doping level (2–3 mol% Sb) n-type degenerate conduction is expected, however, measurements of resistance as a function of temperature show that doped samples exhibit strong electron trapping,...

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Veröffentlicht in:Journal of sol-gel science and technology 1998-01, Vol.13 (1-3), p.793-798
Hauptverfasser: Luis VA Scalvi, Messias, Fábio R, Souza, A E, M Siu Li, Santilli, C V, Pulcinelli, SH
Format: Artikel
Sprache:eng
Schlagworte:
Antimony
Current voltage characteristics
Dependence
Dip coatings
Electrical resistivity
Immersion coating
Sol-gel processes
Thermionic emission
Thin films
Tin dioxide
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Zusammenfassung:Thin films of undoped and Sb-doped SnO2 have been prepared by a sol-gel dip-coating technique. For the high doping level (2–3 mol% Sb) n-type degenerate conduction is expected, however, measurements of resistance as a function of temperature show that doped samples exhibit strong electron trapping, with capture levels at 39 and 81 meV. Heating in a vacuum and irradiation with UV monochromatic light (305 nm) improves the electrical characteristics, decreasing the carrier capture at low temperature. This suggests an oxygen related level, which can be eliminated by a photodesorption process. Absorption spectral dependence indicates an indirect bandgap transition with Eg ≅ 3.5 eV. Current-voltage characteristics indicate a thermionic emission mechanism through interfacial states.
ISSN:0928-0707
1573-4846
DOI:10.1023/A:1008634131282