In this study, we prepared the binary-binary TCO compounds of SnO2-ZnO by the spray pyrolysis technique. We also investigated the role of MgF2/SiO2 antireflection coatings in reducing optical reflectance in the visible region of TCO. Before preparation , we simulated the optical transmition of the films for optimizing the layer thicknesses. The results of this study showed increasing of optical transmittance in the visible region of TCO by adding antireflection coating layers.
Shahedi,Z. and Hadavi,S. (2019). Design and preparation of binary-binary SnO2-ZnO:F/MgF2/SiO2 transparent conducting oxide coatings. Iranian Journal of Physics Research, 12(3), 199-204.
MLA
Shahedi,Z. , and Hadavi,S. . "Design and preparation of binary-binary SnO2-ZnO:F/MgF2/SiO2 transparent conducting oxide coatings", Iranian Journal of Physics Research, 12, 3, 2019, 199-204.
HARVARD
Shahedi Z., Hadavi S. (2019). 'Design and preparation of binary-binary SnO2-ZnO:F/MgF2/SiO2 transparent conducting oxide coatings', Iranian Journal of Physics Research, 12(3), pp. 199-204.
CHICAGO
Z. Shahedi and S. Hadavi, "Design and preparation of binary-binary SnO2-ZnO:F/MgF2/SiO2 transparent conducting oxide coatings," Iranian Journal of Physics Research, 12 3 (2019): 199-204,
VANCOUVER
Shahedi Z., Hadavi S. Design and preparation of binary-binary SnO2-ZnO:F/MgF2/SiO2 transparent conducting oxide coatings. Dear user; Recently we have changed our software to Sinaweb. If you had already registered with the old site, you may use the same USERNAME but you need to change your password. To do so at the first use, please choose, 2019; 12(3): 199-204.
