Alternatif Manyetik Alan Altında Elektrodepozisyon ile Üretilen ZnO Filmleri

Polikristal ZnO ince filmleri alternatif manyetik alan altında elektrodepozisyon ile üretildiler. Manyetik alan altında üretilen filmlerin yapıları X-ray cihazı XRD ile araştırıldı ve bu sonuçlar filmlerin hegzagonal oluştuklarını gösterdi. Manyetik alansız üretilen filmlerin enerji bant aralıkları 3.54 eV ve 3.63 eV aralığında tahmin edilirken diğerlerinin 3.60 eV’den 3.79 eV’ye değiştikleri anlaşıldı

Anahtar Kelimeler:

Elektrodepozisyon, Manyetik alan, İnce film, ZnO

ZnO films obtained by electrodeposition under alternating magnetic field

Thin films of polycrystalline ZnO were produced by electrodeposition under alternating magnetic field. The structures of the films deposited under a magnetic field were defined by X-ray diffractometer XRD and it revealed that the films formed in a hexagonal structure. The energy gaps of the films produced without magnetic field were estimated between 3.54 eV and 3.63 eV while the others varied from the 3.60 eV to the 3.79 eV.

Keywords:

ZnO, Electrodeposition, Magnetic field, Thin Film,

PDF

___

AlArfaj, E. Subahi, A. 2015. The influence of external magnetic field on the structural and optical properties of nanocrystalline ZnO thin films prepared by dip coating method. Superlattice Microst., 86: 508-517.
Altıokka, B. Kıyak Yıldırım, A. 2016. Effects of External Alternating Magnetic Field on ZnO Films Obtained by Electrodeposition. Arab. J. Sci. Eng., 41: 2345-2351.
Ezenwa, IA. 2012. Synthesis and Optical Characterization of Zinc Oxide Thin Film. Res. J. Chem. Sci., 2: 26-30.
Henni, A. Merrouche, A. Telli, L. Karar, A. 2016. Studies on the structural, morphological, optical and electrical properties of Al-doped ZnO nanorods prepared by electrochemical deposition. J. Electroanal. Chem., 763: 149-154.
Jan, T. Iqbal, J, Ismail, M. Zakaullah, M. Naqvi, SH. Badshah, N. 2013. Sn doping induced enhancement in the activity of ZnO nanostructures against antibiotic resistant S. aureus bacteria. Int. J. Nanomed., 8: 3679-3687.
Mahdi, EM. Hamdi, M. Meor Yusoff, MS. 2013. The Effect of Sintering on the Physical and Optical Properties of NanoTiO2 Synthesized Via a Modified Hydrothermal Route. Arab. J. Sci. Eng., 38: 1701-1711.
Park, Y. Nam, G. Leem, JY. 2015. Effect of a Sn Seed Layer and ZnCl2 Concentration on Electrodeposited ZnO Nanostructures. J. Korean Phys. Soc., 66: 1253-1258.
Sun, S. Jiao, S. Zhang, K. Wang, D. Gao, S. Li, H. Wang, J. Yu, Q. Guo, F. Zhao, L. 2012. Nucleation effect and growth mechanism of ZnO nanostructures by electrodeposition from aqueous zinc nitrate baths. J. Cryst. Growth, 359: 15-19.
Valdés, MH. Berruet, M. Goossens, A. Vázquez, M. 2010. Spray deposition of CuInS2 on electrodeposited ZnO for low-cost solar cells. Surf. Coat. Tech., 204: 3995-4000
Wei, M. Li, CF. Deng, H. Deng, XR. 2012. A photoconductor based on heavily Al-doped nano-ZnO thin film and its application to a chaos generator. J. Chin. Inst. Eng., 35: 1065- 1069.
Wen-Bo, W. Hang, G. Xing-Li, H. Wei-Peng, X. Jin-Kai, C. Xiao-Zhi, W. Ji-Kui, L. 2015. Transparent ZnO/glass surface acoustic wave based high performance ultraviolet light sensors. Chin. Phys., 24: 57701-57705
Yilmaz, M. Tatar, D. Sonmez, E. Cirak, C. Aydogan, S. Gunturkun, R. 2016. Investigation of Structural, Morphological, Optical, and Electrical Properties of Al Doped ZnO Thin Films Via Spin Coating Technique. Syn. React. İnorg. Met. http://dx.doi.org/10.1080/15533174.2014. 988795
Zhang, M. Xu, K. Jiang, X. Yang, L. He, G. Song, X. Sun, Z. Lv, J. 2014. Effect of methanol ratio in mixed solvents on optical properties and wettability of ZnO films by cathodic electrodeposition. J. Alloy Compd., 615: 327-332.