You are here

Katkısız ve Katkılı-Cd0.22Zn0.78S Filmleri X-Işını Kırınım Çalışmaları (Seri A) Sprey Piroliz tarafından Depolar

X-Ray Diffraction Studies of Undoped and in-Doped Cd0.22Zn0.78S Films Deposited by Spray Pyrolysis (series A)

Journal Name:

Publication Year:

Abstract (2. Language): 
Cd0.22Zn0.78S and In-doped Cd0.22Zn0.78S films have been produced by the spray pyrolysis method at 275±5°C substrate temperature. This work describes the X-ray diffraction spectra of all films at room temperature. X-ray diffraction spectra of the films showed that they are hexagonal and formed as Cd0.22Zn0.78S polycrystalline structure. Film thickness, texture coefficient (TC), grain size values, lattice constants, and d% error were calculated. Effects of Indium incorporation on these properties deposited films have been systematically investigated.
85-94

REFERENCES

References: 

Agnihotri, O.P. and Gupta, B.K., ‘Cd1-xZnxS Films for Low Cost Solar Cells’’, Jpn. J. Appl. Phys.,
18 (1979) 317-320.
Barret C.S. and Massalski T.B., Structure of Metals (Pergamon Press, Oxford,1980).
Chynoweth, T.A. and Bube, R.H., ‘Electrical Transport in ZnCdS Deposited by Spray Pyrolysis’, J.
Appl. Phys., 51 (1980) 1844-1846.
Cullity B.D. and Stock S.R., Elements of X-ray diffraction (Prentice Hall, 2001) 3nd ed.
Dona, J.M. and Herrero, J., ‘Chemical Bath Codeposited CdS-ZnS Film Characterization’, Thin Solid
Films, 268 (1995) 5-12.
Ilican, S. and Zor, M., ‘Structural and Optical Properties of Cd0.22Zn0.78S Films Produced by Spray
Pyrolysis Method’, Anad. Uni. J. Sci. and Tech., 4, 1 (2003) 47-52.
JCPDS file reference number Card No: 351469
Krunks, M. and Mellikov, E., ‘Zinc Oxide Thin Films by the Spray Pyrolysis Method’, Thin Solid
Films, 270 (1995) 33-36.
Kumar, V., Singh, V., Sharma, S.C. and Sharma, T.P., ‘Structural and Optical Properties of Sintered
Cd1-xZnxS Films’, Optical Materials, 11 (1998) 29-34.
Kuroyanagi, A., ‘ZnxCd1-xS Thin Films Grown by Ion-Beam Deposition’, Thin Solid Films, 249
(1994) 91-94.
Lee, J., Song, W., Yang, K. and Yoo, Y., ‘Characteristics of the CdZnS Thin Film Doped by Indium
Diffusion’, Thin Solid Films, 416 (2002) 184-189.
Lee, J., Song, W., Yi, J. and Yoo, Y., ‘Characteristics of the CdZnS Thin Film Doped by Thermal
Diffusion of Vacuum Evaporated Indium Films’, Solar Energy Materials & Solar Cells, 75
(2003) 227-234.
Oktik, S., Russell, G.J. and Brinkman, A.W., ‘Properties of ZnO Layers Deposited by “Photo Assisted”
Spray Pyrolysis’, Journal of Crystal Growth, 159 (1996) 195-199.
Padam, G.K., Malhotra, G.L. and Rao, S.U.M., ‘Studies on Solution-Grown Thin Films of
ZnxCd1-xS’, J. Appl. Phys., 63 (1988) 770-774.
Padiyan, D.P. and Marikani, A. ‘X-Ray Determination of Lattice Constants of CdxSn1-xSe Mixed
Crystal Systems’, Cryst. Res. Technol., 37 (2002) 1241-1248.
Ray, S. C., Karanjai, M. K. and DasGupta, D. ‘Deposition and Characterization of ZnxCd1-xS Thin
Films Prepared by the Dip Technique’, Thin Solid Films, 322 (1998) 117-122.
94
X-Ray Diffraction Studies of Undoped and in-Doped Cd0.22Zn0.78S Films Deposited by Spray Pyrolysis
Riad, A.S., Mahmoud, S.A. and Ibrahim, A.A., ‘Structural and DC Electrical Investigations of ZnO
Thin Films Prepared by Spray Pyrolysis Technique’, Physica B, 296 (2001) 319-325.
Tiburcio-Silver, A., Sanchez-Juarez, A. and Avila-Garcia, A., ‘Properties of Gallium-Doped ZnO
Deposited onto Glass by Spray Pyrolysis’, Solar Energy Materials and Solar Cells, 55 (1998)
3-10.
Uplane, M.D., Lokhande, C.D., Patil, P.S. and Bhosale, C.H., ‘Effect of Indium Doping on the
Properties of Sprayed Cd0.8Zn0.2S Films’, Tr. J. of Physics, 20 (1996) 1093-1097.
Van Heerden, J.L. and Swanepoel, R., ‘XRD Analysis of ZnO Thin Films Prepared by Spray
Pyrolysis’, Thin Solid Films, 299 (1997) 72-77.

Thank you for copying data from http://www.arastirmax.com