Zinc oxide is a versatile material with excellent optical, electrical and piezoelectrical properties and has been applied to antireflection coatings, transparent electrodes in solar cells, surface acoustic wave devices, pyroelectric devices, gas sensors, varistors and electro- and photoluminescent devices. Nanostructured ZnO thin films can be achieved by pulsed-laser deposition. Key processing parameters of oxygen partial pressure (10−5 –100 Pa) and substrate temperature (200 – 700 °C) have been investigated and correlated with various morphologies of nanostructure. The characterization was made using X-ray diffraction and field emission scanning electron microscope.
REFERENCES
1.
Wang
, Z.L.
, (2004
) Zinc oxide nanostructures: growth, properties and applications
, J. Phys.: Condens. Matter
16
, R829
–R858
.2.
Kim
, S.S.
& Lee
, B.T.
(2004
) Effects of oxygen pressure on the growth of pulsed laser deposited ZnO films on Si (001
), Thin Solid Films
446
, 307
–312
, and references therein.3.
Zhao
, J.L.
, Li
, X.M.
, Bian
, J.M.
, Yu
, W.D.
& Guo
, X.D.
(2005
) Structural, optical and electrical properties of ZnO films grown by pulsed laser deposition (PLD
), J. Cryst. Growth
276
, 507
–512
, and references therein.4.
Henley
, S.J.
, Ashfold
, M.N.R.
& Cherns
, D.
(2004
) The growth of transparent conducting ZnO films by pulsed laser ablation
, Surf. Coat. Technol.
177–178
, 271
–276
.5.
Sun
, Y.
, Fuge
, G.M.
& Ashfold
, M.N.R.
(2004
) Growth of aligned ZnO nanorod arrays by catalyst-free pulsed laser deposition methods
, Chem. Phys. Lett.
396
, 21
–26
.
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© 2006 Laser Institute of America.
2006
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