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Abstrakty
Zinc oxide thin films with different thicknesses were prepared on microscopic glass slides by sol-gel spin coating method, then hydrothermal process was applied to produce zinc oxide nanorod arrays. The nanorod thin films were characterized by various spectroscopic methods of analysis. From the images of field emission scanning electron microscope (FESEM), it was observed that for the film thickness up to 200 nm the formed nanorods with wurtzite hexagonal structure were uniformly distributed over the entire surface substrate. From X-ray diffraction analysis it was revealed that the thin films had good polycrystalline nature with highly preferred c-axis orientation along (0 0 2) plane. The optical characterization done by UV-Vis spectrometer showed that all the films had high transparency of 83 % to 96 % in the visible region and sharp cut off at ultraviolet region of electromagnetic spectrum. The band gap of the films decreased as their thickness increased. Energy dispersive X-ray spectroscopy (EDS) showed the presence of zinc and oxygen elements in the films and Fourier transform infrared spectroscopy (FT-IR) revealed the chemical composition of ZnO in the film.
Słowa kluczowe
Wydawca
Czasopismo
Rocznik
Tom
Strony
501--510
Opis fizyczny
Bibliogr. 41 poz., rys., tab.
Twórcy
autor
- Institute of Electronics, Atomic Energy Research Establishment, Bangladesh Atomic Energy Commission, Savar, Dhaka, Bangladesh
autor
- Institute of Electronics, Atomic Energy Research Establishment, Bangladesh Atomic Energy Commission, Savar, Dhaka, Bangladesh
autor
- Institute of Electronics, Atomic Energy Research Establishment, Bangladesh Atomic Energy Commission, Savar, Dhaka, Bangladesh
autor
- University of Liberal Arts Bangladesh (ULAB)
autor
- Institute of Electronics, Atomic Energy Research Establishment, Bangladesh Atomic Energy Commission, Savar, Dhaka, Bangladesh
autor
- Institute of Electronics, Atomic Energy Research Establishment, Bangladesh Atomic Energy Commission, Savar, Dhaka, Bangladesh
autor
- Institute of Electronics, Atomic Energy Research Establishment, Bangladesh Atomic Energy Commission, Savar, Dhaka, Bangladesh
autor
- Institute of Electronics, Atomic Energy Research Establishment, Bangladesh Atomic Energy Commission, Savar, Dhaka, Bangladesh
Bibliografia
- [1] WAHAB H.A., SALAMA A.A., EL-SAEID A.A., NUR O., WILLANDER M., BATTISHA I.K., Results Phys., 3 (2013), 46.
- [2] KHUN K., IBUPOTO Z.H., CHEY C.O., LU J., NUR O., WILLANDER M., Appl. Surf. Sci., 268 (2013), 37.
- [3] ZHOU H., LI J., BAO S., LI J., LIU X., JIN P., Appl. Surf. Sci., 363 (2015), 532.
- [4] JANOTTI A., WALLE C.G.V., Rep. Prog. Phys., 72 (2009), 126501.
- [5] ALI M.M., J. Basrah Res., 37 (2011), 49.
- [6] KOŁODZIEJCZAK-RADZIMSKA A., JESIONOWSKI T., Materials, 7 (2014), 2833.
- [7] ÖZGÜR Ü., ALIVOV Y.I., LIU C., TEKE A., RESHCHIKOV M.A., DOĞAN S., AVRUTIN V., CHO S.J., MORKOÇD H., J. Appl. Phys., 98 (2005), 041301.
- [8] BARUAH S., DUTTA J., Sci. Technol. Adv. Mat., 10 (2009), 13001.
- [9] DAS R., KUMAR A., KUMAR Y., SEN S., SHIRAGE P.M., RSC Adv., 5 (2015), 60365.
- [10] SKOMPSKA M., ZAREBSKA K., Electrochim. Acta, 127 (2014), 467.
- [11] MORTEZAALI A., TAHERI O., HOSSEINI Z.S., Microelectron. Eng., 151 (2016), 19.
- [12] SANGARI N.U., DEVI S.C., J. Solid State Chem., 197 (2013), 483.
- [13] MARIAPPAN R., PONNUSWAMY V., CHANDRA BOSE A., CHITHAMBARARAJ A., SURESH R., RAGAVENDAR M., Superlattice. Microst., 65 (2014), 184.
- [14] SHARMA M., MEHRA R.M., Appl. Surf. Sci., 255 (2008), 2527
- [15] ZHONG B.Z., FANG G.J., WANG J.F., GUAN W.J., ZHAO X.Z., J. Appl. Phys., 101 (2007), 033713.
- [16] MORTEZAALI A., TAHERI O., HOSSEINI Z.S., Microelectron. Eng., 151 (2016), 19.
- [17] ZHANG S., YAN C., ZHANG H., LU G., Mater. Lett., 148 (2015), 1.
- [18] XU L., LI X., CHEN Y., XU F., Appl. Surf. Sci., 257 (2011), 4031.
- [19] FARHAT O.F., HALIM M.M., ABDULLAH M.J., ALI M.K.M., ALLAM N.K., Beilstein J. Nanotech., 6 (2015), 720.
- [20] KASHIF M., HASHIM U., ALI M.E., ALI S.M.U., RUSOP M., IBUPOTO Z.H., WILLANDER M., J. Nanomater., 2012 (2012), 452407.
- [21] FOO K.L., HASHIM U., MUHAMMAD K., VOON C.H., Nanoscale Res. Lett., 9 (2014), 429.
- [22] MARIAPPAN R., PONNUSWAMY V., BOSE A.C., CHITHAMBARARAJ A., SURESH R., RAGAVENDAR M., Superlattice Microst., 65 (2014), 184.
- [23] SRINIVASAN G., KUMAR R.T.R., KUMAR J., J. Sol-Gel Sci. Techn., 43 (2007), 171.
- [24] MORKOC H., Handbook of Nitride Semiconductors and Devices: Materials Properties, Physics and Growth, Vol. 1, John Wiley & Sons, New Jersey, 2009.
- [25] ROZA L., RAHMAN M.Y.A., UMAR A.A., SALLEH M.M., J. Alloy. Compd., 618 (2015), 153.
- [26] JI L.W., PENG S.M., SU Y.K., YOUNG S.J., WU C.Z., CHENG W.B., Appl. Phys. Lett., 94 (2009), 203106.
- [27] CAGLAR M., CAGLAR Y., ILICAN S., J. Optoelectron. Adv. M., 8 (2006), 1410.
- [28] BOROWICZ P.B., J. Spectrosc., 2016 (2016), 1617063.
- [29] GUPTA R.K., SERBETI Z., YAKUPHANOGLU F., J. Alloy. Compd., 515 (2012), 96.
- [30] RAI R.C., J. Appl. Phys., 113 (2013), 153508.
- [31] GADALLAH A.S., EL-NAHASS M.M., Condens. Matter Phys., 2013 (2013), 234546.
- [32] KHAN M.F., ANSARI A.H., HAMEEDULLAH M., AHMAD E., HUSAIN F.M., ZIA Q., BAIG U., ZAHEER M.R., ALAM M.M., KHAN A.M., ALOTHMAN Z.A., AHMAD I., ASHRAF G.M., ALIEV G., Sci. Rep.-UK, 6 (2016), 27689.
- [33] XUA L., LI X., CHEN Y., XU F., Appl. Surf. Sci., 257 (2011), 4031.
- [34] ZHANG D., FAN P., CAI X., HUANG J., RU L., ZHENG Z., LIANG G., HUANG Y., Appl. Phys. A, 97 (2009), 437.
- [35] NOEI H., QIU H., WANG Y., LÖFFLER E., WÖLLB C., MUHLER M., Phys. Chem. Chem. Phys., 10 (2008), 7092.
- [36] CHENG X.L., ZHAO H., HUO H., GAO S., ZHAO J.G., Sensor. Actuat. B-Chem., 102 (2004), 248.
- [37] VIJAYALAKSHMI K., KARTHICK K., GOPALAKRISHNA D., Ceram. Int., 39 (2013), 4749.
- [38] JIN F., ZENG X., LIU J., JIN Y., WANG L., ZHONG H., YAO G., HUO Z., Sci. Rep.-UK, 4 (2014), 4503.
- [39] TÜZEMEN E.Ş., EKER S., KAVAK H., ESEN R., Appl. Surf. Sci., 255 (2009), 6195.
- [40] LEE J., SORESCU D.C., DENG X., J. Phys. Chem. Lett., 7 (2016), 1335.
- [41] BELAHSSENA O., TEMAM H.B., LAKEL S., BENHAOUA B., BENRAMACHE S., GAREH S., Optik, 126 (2015), 1487.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-648a82db-1534-44b2-8f21-65e34dfc5d54
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