[Abstract:0121][PP-145][Accepted:Poster Presentation][A-2 Nanocrystals] Methodology of Catalytically Active, Locally Correlated Systems
B. Özdemir, H. Toffoli
Physics Department, Graduate School of Natural & Applied Sciences, Middle East Technical University, Ankara, Turkey
[Abstract:0139][PP-146][Accepted:Poster Presentation][A-2 Nanocrystals]
Effect of layer thick on F and Sb doped SnO2 thin films prepared by spin coating technique
A. Koçyiğit1, D. Tatar2, A. Battal3, B. Düzgün2
1Health Services Vocational High School, Igdır University, Igdır, Turkey
2K.K. Education Faculty, Department of Physics Education, Atatürk University, Erzurum, Turkey 3Education Faculty, Department of Science Education, Muş Alparslan University, Muş, Turkey
[Abstract:0143][PP-147][Accepted:Poster Presentation][A-2 Nanocrystals]
Investigation of structural and optical properties of spray deposited Sb and F doped SnO2 thin films at different substrate temperatures
A. Battal1, D. Tatar2, A. Koçyiğit3, B. Düzgün2
1Education Faculty, Department of Science Education, Muş Alparslan University, Muş, Turkey 2K.K. Education Faculty, Department of Physics Education, Atatürk University, Erzurum, Turkey 3Health Services Vocational High School, Igdır University, Igdır, Turkey
[Abstract:0296][PP-148][Accepted:Poster Presentation][A-2 Nanocrystals]
Synthesis of Indium Selenide Thin Films by Spray Pyrolysis Technique
B. Güzeldir1, D. Tatar2, M. Sağlam1, A. Ateş3
1Department of Physics, Faculty of Sciences, Atatürk University, Erzurum, Turkey 2Department of Physics, Faculty of K.K.E., Atatürk University, Erzurum, Turkey
3Deparment of Material Eng, Faculty of Eng. and Nature Sciences, Yıldırım Beyazıt University,
Ankara, Turkey
[Abstract:0303][PP-149][Accepted:Poster Presentation][A-2 Nanocrystals]
Structural and optical properties of vanadium oxide thin films prepared by Spray Pyrolysis Technique
D. Tatar1, B. Güzeldir2, M. Sağlam2, A. Ateş3
1Department of Physics, Faculty of K.K.E., Atatürk University, Erzurum, Turkey 2Department of Physics, Faculty of Sciences, Atatürk University, Erzurum, Turkey
3Deparment of Material Eng, Faculty of Eng. and Nature Sciences, Yıldırım Beyazıt University,
Ankara, Turkey
[Abstract:0309][PP-150][Accepted:Poster Presentation][A-2 Nanocrystals] NOx interaction with doped BaO-001 (Barium oxside) surface
M. Tek, H. Toffoli
Middle East Technical University, Department of physics,Ankara-Turkey
[Abstract:0139][PP-146][A-2 Nanocrystals]
Effect of layer thick on F and Sb doped SnO2 thin films prepared by spin coating technique
A. Koçyiğit1, D. Tatar2, A. Battal3, B. Düzgün2
1Health Services Vocational High School, Igdır University, Igdır, Turkey
2K.K. Education Faculty, Department of Physics Education, Atatürk University, Erzurum, Turkey 3Education Faculty, Department of Science Education, Muş Alparslan University, Muş, Turkey
Doubly doped thin film SnO2:F:Sb prepared on glass substrate by Spin coating method low cost precursor. Investigated different layer deposition of doubly doped SnO2. Uv-Vis
spectrophotometer, X-ray diffraction and atomic force microscope (AFM) studies were performed on AFTO (Antimony and Flor Doped SnO2) films. X-ray diffraction pattern reveals the presence of cassiterite structure with (101) and (301) preferential orientation. Atomic force microscopy (AFM) study reveals the surface of the films to be made of nanocrystalline particles. The transmittance of the films in the visible range is 90 - 95 %, the best transparent film for doubly doped tin. High conductivity and transparency of the films suggest these films are likely to be useful as electrical contacts in various electronic and energy harvest applications.
Acknowledgements: The authors sincerely thanks to Erzurum Atatürk University Scientific Research Projects (B.A.P. - 2011/218) Centre, Turkey for financial support.
Keywords: Double Doping, Spin Coating, Thin Film
XRD patterns of SnO2:Sb:F thin films
% Tranmittance measurement according to different layer deposition for 700 nm
Layer of deposition % Transmittance (700 nm)
1 Layer 99,86
4 Layer 97,35
7 Layer 86,18