PHOTOCONDUCTIVITY OF UNDOPED ZNO THIN FILMS DEPOSITED BY SPRAY PYROLYSIS

Authors

  • C.E BENOUIS USTO University Oran
  • A SANCHEZ JUAREZ Centro de Investigacion en Energias-UNAM, Temixco
  • M.S AIDA Université Constantine 1
  • S HAMZAOUI USTO University Oran
  • M BENHALILIBA USTO University Oran

Keywords:

Photoconductivity, ZnO thin films, spray pyrolysis, deposition time, substrate temperature, relaxation time, Laplace transform method

Abstract

The photoconductivity of ZnO thin films prepared by spray pyrolysis of the zinc dihydrated were studied. The electrical, optical behaviors and structural spectra show an important effect of substrate temperature Ts and deposition time td. Under illumination, the conductivity of asgrown
sample increased due to desorption of oxygen. A small photoconductivity is
representative of the electrical behavior of a quasi intrinsic material. By following cessation of illumination, we remarked a saturation of decay photoconductivity, this can be attributed to traps which captures carriers

Downloads

Download data is not yet available.

Author Biographies

C.E BENOUIS, USTO University Oran

Electron Microscope Lab

A SANCHEZ JUAREZ, Centro de Investigacion en Energias-UNAM, Temixco

Centro de Investigacion en Energias-UNAM,Temixco

M.S AIDA, Université Constantine 1

Thin films and plasma Laboratory - Physics Departement

S HAMZAOUI, USTO University Oran

Electron Microscope Lab

M BENHALILIBA, USTO University Oran

Electron Microscope Lab

References

- K.L Chopra , S. Major and D.K. Pandya, T.S.F 102, pp1-

,1983.

- H.Sato, T.minami, Y.Tamura T.S.F 246,86,1994.

- Golego N., Studenikin S. A. and Cocivera M. J. Electrochem.

Soc., 147, 4, pp. 1592-1594, 2000.

-] S.Major , A.Banerjee and K.L.Chopra T.S.F 108, 333, 1983.

- O.Kluth,B.Rech,H.WagnerEuropean.Photovoltaic. Solar

Energy Munich.Germany, 22-26 oct, 2001.

- F.T.J Smith Appl. Phys.lett 43, 108, 1983.

- D.H.Zang, D.E.Brodie, T.S.F 261,334-339, 1995

-Y.G.Wang, S.P.Lau, X.H;Zhang, H.W.Lee, S.F.Yu,

B.K.Tay,H.H.Hng. Chem.Phy.375,pp113-118,2003

- J.Arnovitch,, A.Ortiz and R.Bube J.Vac.Sci.Tech. 16(4),

July/August 1979

- S.AStudenikin, N.Golego,M.Cocivera, Semicond.

Sci.Technol.13,1383-1391,

- B.D. Cullity, Elements of X-Ray Diffraction, 2nd

ed.(Addison-Wesley, Reading, Ma, 1978)

- F. Paraguay D., Estrada L. , D.R. Acosta N. , E. Andrade,

M.Miki-Yoshida,

TSF, 350, pp.192-202, 1999

- S.A.Studenikin, N.Golego, M.Cocivera J. Apl.Phys. 83,

N°4, 2104-2111, 1998

- M. G. Ambia, M.N. Islam, M. Obaidul H, Solar Energy

Materials And Solar Cells Vol. 28,pp103-111, 1993.

- S.Major, A.Banergy, K.L.chopra, K.C.Nagpal T.S.F, 143,

pp. 19-30, 1986.

- R. L. Petriz, Phys. Rev. Vol. 110, 1023, 1950

- J. Y. W. Seto, J.Appl.Phys, vol. 46, 12, 5247, 1975.

- Donald A.Melnick J.Chem.Phys. 1136-1146, 26 May 1957.

- Z D.H.Zhang and D.E.Brodie T.S.F, 261,pp334-339,1995

- S.A. Studenikin, N. Golego, M. Cocivera. J. Appl. Phys. 84,

N°9, pp.5001-5004, 1998.

Downloads

Published

2005-06-01

How to Cite

BENOUIS, C., SANCHEZ JUAREZ, A., AIDA, M., HAMZAOUI, S., & BENHALILIBA, M. (2005). PHOTOCONDUCTIVITY OF UNDOPED ZNO THIN FILMS DEPOSITED BY SPRAY PYROLYSIS. Sciences & Technology. A, Exactes Sciences, (23), 11–16. Retrieved from https://revue.umc.edu.dz/a/article/view/173

Issue

N° 23 Juin 2005

Section

Articles

Similar Articles

1 2 3 4 5 6 7 8 9 10 > >> 

You may also start an advanced similarity search for this article.