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Journal of Materials Science

Erschienen in:

01.10.2014

Influence of ion-beam sputtering deposition parameters on highly photosensitive and transparent CdZnO thin films

verfasst von: Shruti Verma, Sushil Kumar Pandey, Mukul Gupta, Shaibal Mukherjee

Erschienen in: Journal of Materials Science | Ausgabe 20/2014

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Abstract

CdZnO thin films with a nominal thickness of ~200 nm were grown on c-plane sapphire substrates by dual ion-beam sputtering deposition technique. The effect of substrate temperature (300–600 °C) and gas ambience on structural, morphological, compositional and opto-electronic properties was studied. X-ray diffraction patterns confirmed that all the films were polycrystalline in nature and were preferentially oriented along the c-axis. It was revealed that the films grown at Ar/O₂ ratio of 4:1 were structurally more ordered and the film quality was found to be the best at 500 °C. The compositional studies specify that approximately 11.8 at.% of cadmium were present in the film deposited at 300 °C in Ar–O₂ mixture. Investigations on optical properties by photoluminescence and absorption studies indicate band gap shrinkage with the increase in argon partial pressure and substrate temperature. It was found that photosensitivity of the deposited films was highly dependent on growth conditions. The photosensitivity was found to be 5000-fold higher for CdZnO film grown at 600 °C in Ar–O₂ ambience compared to the best reported result, and this was promising to realize high-performance opto-electronic devices on such CdZnO films.

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Tsukazaki A, Ohtomo A, Onuma T et al (2005) Repeated temperature modulation epitaxy for p-type doping and light-emitting diode based on ZnO. Nat Mater Lett 4:42–46CrossRef

Mohanta A, Thareja RK (2008) Photoluminescence study of ZnCdO alloy. J Appl Phys 103:24901–24905CrossRef

Makino T, Segawa Y, Kawasaki M, Ohtomo A, Shiroki R, Tamura K, Yasuda T, Koinuma H (2001) Band gap engineering based on Mg_xZn_1−xO and Cd_yZn_1−yO ternary alloy films. Appl Phys Lett 78:1237–1239CrossRef

Sadofev S, Blumstengel S, Cui J, Puls J, Rogaschewski S, Schafer P, Henneberger F (2006) Visible band-gap ZnCdO heterostructures grown by molecular beam epitaxy. Appl Phys Lett 89:201907CrossRef

Ishihara J, Nakamura A, Shigemori S, Aoki T, Temmyo J (2006) Zn_1−xCd_xO systems with visible band gaps. Appl Phys Lett 89:091914CrossRef

Choi Y, Lee C, Cho S (1996) Transparent conducting Zn_xCd_1−xO thin films prepared by the sol–gel process. Thin Solid Films 289:153–158CrossRef

Brown JJ, Hummel FA (1964) Phase equilibria and manganese-activated luminescence in the systems CdO–P₂O₅ and Zn₂P₂O₇–Cd₂P₂O₇; summary for the system ZnO–CdO–P₂O₅. J Electrochem Soc 111:1052–1057CrossRef

Tortosa M, Mollar M, Mari B (2007) Synthesis of ZnCdO thin films by electrodeposition. J Cryst Growth 304:97–102CrossRef

Caglar Y, Caglar M, Ilican S, Ates A (2009) Morphological, optical and electrical properties of CdZnO prepared by sol–gel method. J Phys D 42:065421CrossRef

10.

Tabet-Derraz H, Benramdane N, Nacer D, Bouzidi A, Medles M (2002) Investigations on Zn_xCd_1−xO thin films obtained by spray pyrolysis. Sol Energy Mater Sol Cells 73:249–259CrossRef

11.

Sun CW, Xin P, Ma CY, Liu ZW, Zhang QY, Wang YQ, Yin ZJ, Huang S, Chen T (2006) Optical and electrical properties of Zn_1−xCd_xO films grown on Si substrates by reactive radio-frequency magnetron sputtering. Appl Phys Lett 89:181923CrossRef

12.

Ishihara J, Nakamura A, Shigemori A, Aoki T, Temmyo J (2005) Growth and characterization of Zn_1−xCd_xO films using remote plasma MOCVD. Appl Surf Sci 244:381–384CrossRef

13.

Verma S, Pandey SK, Gupta M, Mukherjee S (2014) Effect of growth temperature in properties on CdZnO thin films. Physics of semiconductor devices: environmental science and engineering. Springer, Berlin, pp 865–867CrossRef

14.

Pandey SK, Pandey SK, Verma S, Gupta M, Sathe V, Mukherjee S (2013) Investigation of dual ion beam sputtered transparent conductive Ga-doped ZnO films. J Mater Sci 24:4919–4924. doi:10.1007/s10854-013-1498-2

15.

Pandey SK, Pandey SK, Awasthi V, Gupta M, Deshpande UP, Mukherjee S (2013) Influence of in situ annealing ambient on p-type conduction in dual ion beam sputtered Sb-doped ZnO thin films. Appl Phys Lett 103:072109CrossRef

16.

Pandey SK, Pandey SK, Awasthi V, Kumar A, Deshpande UP, Gupta M, Mukherjee S (2013) p-Type conduction from Sb-doped ZnO thin films grown by dual ion beam sputtering in the absence of oxygen ambient. J Appl Phys 114:163107CrossRef

17.

Dual Ion-Beam Sputtering System V1108 Manual (2007) Version 3, pp 3–11

18.

Khranovskyy V, Tsiaoussis I, Hultman L, Yakimova R (2011) Selective homoepitaxial growth and luminescent properties of ZnO nanopillars. Nanotechnology 22:185603CrossRef

19.

Ma DW, Ye ZZ, Lu HM, Huang JY, Zhao BH, Zhu LP, Zhang HJ, He PM (2004) Sputtering deposited ternary Zn_1−xCd_xO crystal films on Si(111) substrates. Thin Solid Films 461:205–255CrossRef

20.

Albertsson J, Abrahama SC, Kvick A (1989) Atomic displacement, anharmonic thermal vibration, expansivity and pyroelectric coefficient thermal dependences in ZnO. Acta Crystallogr B 45:34–40CrossRef

21.

Park SH, Hanada T, Oh DC et al (2007) Lattice relaxation mechanism of ZnO thin films grown on c-Al₂O₃ substrates by plasma-assisted molecular-beam epitaxy. Appl Phys Lett 91:231

22.

Cebulla R, Wendt R, Ellmer K (1998) Al-doped zinc oxide films deposited by simultaneous Rf and DC excitation of a magnetron plasma: relationships between plasma parameters and structural and electrical film properties. J Appl Phys 83:1087–1095CrossRef

23.

Wang C, Xu D, Xiao X, Zhang Y, Zhang D (2007) Effects of oxygen pressure on the structure and photoluminescence of ZnO thin films. J Mater Sci 42:9795–9800. doi:10.1007/s10853-007-1992-0 CrossRef

24.

Cullity BD (1978) Elements of X-ray diffraction, 2nd edn. Addison-Wesley, Reading

25.

Wang XS, Wu ZC, Webb JF, Liu ZG (2003) Ferroelectric and dielectric properties of Li-doped ZnO thin films prepared by pulsed laser deposition. Appl Phys A 77:561–565CrossRef

26.

Ohtomo A, Kawasaki M, Ohkubo I, Koinuma H, Yasuda T, Segawa Y (1999) Structure and optical properties of ZnO/Mg_0.2Zn_0.8O superlattices. Appl Phys Lett 75:980–982CrossRef

27.

Wang FZ, Ye ZZ, Ma DW, Zhu LP, Zhuge PF, He HP (2005) Synthesis and characterization of quasi-aligned ZnCdO nanorods. Appl Phys Lett 87:143101CrossRef

28.

Jeong SH, Kim BS, Lee BT (2003) Photoluminescence dependence of ZnO films grown on Si(100) by radio-frequency magnetron sputtering on the growth ambient. Appl Phys Lett 82:2625–2627CrossRef

29.

Studentikin SA, Golego N, Concivera MJ (1998) Fabrication of green and orange photoluminescent, undoped ZnO films using spray pyrolysis. J Appl Phys 84:2287–2294CrossRef

30.

Asbrink S, Waskowska A, Gerward L, Olsen JS, Talik E (1996) High-pressure transition and properties of spinel ZnMn₂O₄. Phys Rev B 60:12651–12656CrossRef

31.

Djurisic AB, Leung YH, Tam KH, Hsu YF, Ding L, Ge W (2007) Defect emissions in ZnO nanostructures. Nanotechnology 18:095702CrossRef

32.

Willander M, Nur O, Sadaf JR, Qadir ML, Zaman S, Zainelabdin A, Bano N, Hussain I (2010) Luminescence from zinc oxide nanostructures and polymers and their hybrid devices. Materials 3:2643–2667CrossRef

33.

Yuan G, Zhu L, Ye Z, Qing Q, Zhao B, Fan R (2005) Effect of substrate temperature on structural, electrical and optical properties of Al–N co-doped ZnO thin films. Thin Solid Films 484:420–425CrossRef

34.

Sathish DV, Kishna CR, Reddy CV, Thampy USU, Ravikumar RVSSN (2012) Structural and optical investigations on ZnCdO nanopowder. Phys Scr 86:035708CrossRef

35.

Wang F, He H, Ye ZZ, Zhu L, Tang H, Zhang Y (2005) Raman scattering and photoluminescence of quasi-aligned ternary ZnCdO nanorods. J Phys D 38:2919–2922CrossRef

36.

Zhang J, Cong L, Wan H, Wang T (2009) Green-emission and n-type conductivity of ZnO:Zn films obtained using vapor deposition method. Appl Surf Sci 255:3530–3533CrossRef

37.

Borseth TM, Svensson BG, Kuznetsov AY, Klason P, Zhao QX, Willander M (2006) Identification of oxygen and zinc vacancy optical signals in ZnO. Appl Phys Lett 89:262112CrossRef

38.

Shtepliuk I, Khranovskyy V, Lashkarev G et al (2013) Microstructure and luminescence dynamics of ZnCdO films with high Cd content deposited on different substrates by DC magnetron sputtering method. Appl Surf Sci 276:550–557CrossRef

39.

Yang WF, Liu B, Chen R, Wong LM, Wang SJ, Sun HD (2010) Pulsed laser deposition of high-quality ZnCdO epilayers and ZnCdO/ZnO single quantum well on sapphire substrate. Appl Phys Lett 97:061911CrossRef

40.

Cao HT, Pei ZL, Gong J, Sun C, Huang RF, Wen LS (2004) Preparation and characterization of Al and Mn doped ZnO (ZnO:(Al, Mn)) transparent conducting oxide films. J Solid State Chem 177:1480–1487CrossRef

41.

Gabas M, Gota S, Ramos-Barrado JR, Sanchez M, Barett NT, Avila J, Sacchi M (2005) Unravelling the conduction mechanism of Al-doped ZnO films by valence band soft X-ray photoemission spectroscopy. Appl Phys Lett 86:042104CrossRef

42.

Li QH, Gao T, Wang YG, Wang TH (2005) Adsorption and desorption of oxygen probed from ZnO nanowire films by photocurrent measurements. Appl Phys Lett 86:123117CrossRef

43.

George PJ, Sanchez-Juarez A, Nair PK (1996) Modification of electrical, optical and crystalline properties of chemically deposited CdS films by thermal diffusion of indium and tin. Semicond Sci Technol 11:1090CrossRef

Titel: Influence of ion-beam sputtering deposition parameters on highly photosensitive and transparent CdZnO thin films
verfasst von: Shruti Verma
Sushil Kumar Pandey
Mukul Gupta
Shaibal Mukherjee
Publikationsdatum: 01.10.2014
Verlag: Springer US
Erschienen in: Journal of Materials Science / Ausgabe 20/2014
Print ISSN: 0022-2461
Elektronische ISSN: 1573-4803
DOI: https://doi.org/10.1007/s10853-014-8396-8

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