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Controlling of optical band gap of the CdO films by zinc oxide

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Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
In this study, CdZnO films prepared at different ratios of dopants (CdO:ZnO = 5:5, CdO:ZnO = 6:4, and CdO:ZnO = 8:2) were coated on glass surface by using the sol-gel spin coating technique. After this process, surface structure and optical properties of the CdZnO films was investigated by atomic force microscopy (AFM) and UV-Vis spectroscopy. The surface structure of the CdZnO films depended on the content of ZnO and CdO in the films. Low percentage of CdO films were very similar to the ZnO film but higher amount of CdO resuted in granular structures together with pure structure of ZnO in the films. Eg values of produced CdZnOs depended on the additions of CdO and ZnO. The obtained Eg values of the produced CdO:ZnO = 5:5 (S3), CdO:ZnO = 6:4 (S4), and CdO:ZnO = 8:2 (S5) films are 2.5 eV, 2.49 eV, and 2.4 eV, respectively.
Słowa kluczowe
Wydawca
Rocznik
Strony
136--141
Opis fizyczny
Bibliogr. 28 poz., rys., tab.
Twórcy
autor
  • Firat University, Faculty of Technology, Metallurgy and Material Engineering Department, 2311, Turkey
Bibliografia
  • [1] DAGDELEN F., SERBETCI Z., GUPTA R.K., YAKUPHANOGLU F., Mater. Lett., 80 (2012), 127- 130.
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  • [8] PATHAK T.K., RAJPUT J.K., KUMAR V., PUROHIT L.P., SWART H.C. KROON R.E., J Colloid Interface Sci., 487, (2017), 378-387.
  • [9] REDDY K.T.R, SHANTHINI G.M., JOHNSTON D., MILES R.W., Thin Solid Films, 427 (2003), 397-400.
  • [10] EL SAYED A.M., TAHA S., SAID G., YAKUPHANOGLU ˘ F., Superlattices Microstruct., 65 (2014), 35-47.
  • [11] MAITI U.N., GHOSH P.K., AHMED S.F., MITRA M.K, CHATTOPADHYAY K.K., J. Sol-Gel Sci. Technol., 41 (2007), 87-92.
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  • [15] MIA M.N.H., PERVEZ M.F., HOSSAIN M.K., ET AL., Results Phys., 7 (2017), 2683-2691.
  • [16] HUANG B., CHU H.L., WANG M.C., LIU C., HWANG W.S., ZHAO X., Ceram. Int., 42,(2016), 17843-17852.
  • [17] DAHNOUN M., ATTAF A., SAIDI H., YAHIA A., KHELIFI C., Optik (Stuttg), 134 (2017), 53-59.
  • [18] KHAN M.I., BHATTI K.A., QINDEEL R., ALONIZAN N., ALTHOBAITI H.S., Results Phys., 7 (2017), 651-655.
  • [19] PATIL N.B., NIMBALKAR A.R., PATIL M.G., Mater. Sci. Eng. B Solid-State Mater. Adv. Technol., 227 (2018), 53-60.
  • [20] CHAVAN A., SHIVARAJ B.W., MURTHY H.N.N., ET AL., Procedia Mater. Sci., 10 (2015), 270-278.
  • [21] ALAHMED Z.A., ALBRITHEN H.A., AL-GHAMDI A.A., YAKUPHANOGLU ˘ F., Optik (Stuttg), 126 (2015), 575-577.
  • [22] TURGUT G., TATAR D., Optik (Stuttg), 145 (2017), 292- 303.
  • [23] AYDEMIR S., KÖSE S., SELAMI KILIÇKAYA M., ÖZKAN V., Superlattices Microstruct., 71 (2014), 72- 81.
  • [24] YAHIA I.S., SALEM G.F., IQBAL J., YAKUPHANANOGLU ˘ F., Phys. B Condens. Matter, 511 (2017), 54-60.
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  • [26] JULE L.T., DEJENE F.B., ALI A.G., ET AL., J. Alloys Compd., 687,2016,920-926.
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  • [28] REDDY C.V., BABU B., SHIM J., J.Phys. Chem. Solids, 112 (2018), 20-28.
Uwagi
PL
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2019).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-8d681996-2295-467b-ac71-4ca84657ae01
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