In this paper, we report on physical properties of pure and Cu doped cadmium telluride (CdTe) films deposited onto corning 7059 microscopic glass substrates by electron beam evaporation technique. X-ray diffraction study showed that all the deposited films belong to amorphous nature. The average transmittance of the films is varied between 77% and 90%. The optical energy band gap of pure CdTe film is 1.57 eV and it decreased to 1.47 eV upon 4 wt. % of Cu addition, which may be due to the extension of localized states in the band structure. The refractive index of the films was calculated using Swanepoel method. It was observed that the dispersion data obeyed the single oscillator of the Wemple-Didomenico model, from which the dispersion energy (Ed) parameters, dielectric constants, plasma frequency, and oscillator energy (Eo) of CdTe and CdTe:Cu films were calculated and discussed in detail with the light of possible mechanisms underlying the phenomena. The variation in intensity of photoluminescence band edge emission peak observed at 820 nm with Cu dopant is due to the change in surface state density. The observed trigonal lattice of Te peaks in the micro-Raman spectra confirms the p-type conductive nature of films, which was further corroborated by the Hall effect measurement. The lowest resistivity of 6.61 × 104 Ω cm was obtained for the CdTe:Cu (3 wt. %) film.

1.
M. C.
Schlamp
,
X. G.
Peng
, and
A. P.
Alivisators
,
J. Appl. Phys.
82
,
5837
(
1997
).
2.
S. T.
Sundari
,
V.
Swaminathan
,
A. K.
Tyagi
, and
T.
Mahalingam
,
Phys. Status Solidi A
177
,
495
(
2000
).
3.
C.
Polop
,
I.
Mora-Sero
,
C.
Munuera
,
J.
Garcia de Andres
,
V.
Munoz-Sanjose
, and
C.
Ocal
,
Acta Mater.
54
,
4285
(
2006
).
4.
Y. P.
Chen
,
J. P.
Faurie
, and
S.
Sivananthan
,
J. Electron. Mater.
24
,
475
(
1995
).
5.
A. A.
Ramadan
,
A. Abd-El
Mongy
,
I. S. Ahmed
Farag
,
A. M.
El-Shabiny
,
F. A.
Radwan
,
H. I.
Ismail
, and
H. M.
Hashem
,
Thin Solid Films
423
,
146
(
2003
).
6.
K.
Zanio
,
Semiconductors and Semimetals, Cadmium Telluride
(
Academic Press
,
New York
,
1978
), p.
196
.
7.
B.
Monemar
,
E.
Molva
, and
L. Si
Dang
,
Phys. Rev. B
33
,
1134
(
1986
).
8.
T. D.
Dzhafarov
,
S. S.
Yesilkaya
,
N. Yilmaz
Canli
, and
M.
Caliskan
,
Sol. Energy Mater. Sol. Cells
85
,
371
(
2005
).
9.
V.
Kosyak
,
A.
Opanasyuk
,
P. M.
Bukivskij
, and
Yu. P.
Gnatenko
,
J. Cryst. Growth
312
,
1726
(
2010
).
10.
K. M.
Garadkar
,
S. J.
Pawar
,
P. P.
Hankare
, and
A. A.
Patil
,
J. Alloys Compd.
491
,
77
(
2010
).
11.
E. R.
Shaaban
,
N.
Afify
, and
A. El
Taher
,
J. Alloys Compd.
482
,
400
(
2009
).
12.
R.
Raj Singh
,
D.
Painuly
, and
R. K.
Pandey
,
Mater. Chem. Phys.
116
,
261
(
2009
).
13.
F.
de Moure-Flores
,
J. G.
Quiñones-Galván
,
A.
Guillén-Cervantes
,
J. S.
Arias-Cerón
,
A.
Hernández-Hernández
,
J.
Santoyo-Salazar
,
J.
Santos-Cruz
,
S. A.
Mayén-Hernández
,
M. de la L.
Olvera
,
J. G.
Mendoza-Álvarez
,
M.
Meléndez-Lira
, and
G.
Contreras-Puente
,
J. Cryst. Growth
386
,
27
(
2014
).
14.
P.
Banerjee
,
R.
Ganguly
, and
B.
Ghosh
,
Appl. Surf. Sci.
256
,
213
(
2009
).
15.
E. R.
Shaaban
,
I. S.
Yahia
, and
E. G.
El-Metwally
,
Acta Phys. Pol. A
121
,
628
(
2012
).
16.
A. Z.
Moshfegh
,
R.
Azimirad
, and
O.
Akhavan
,
Thin Solid films
484
,
124
(
2005
).
17.
K. J.
Patel
,
C. J.
Panchal
,
V. A.
Kheraj
, and
M. S.
Desai
,
Mater. Chem. Phys.
114
,
475
(
2009
).
18.
19.
F. de
Moure-Flores
,
J. G.
Quiñones-Galván
,
A.
Guillén-Cervantes
,
J. S.
Arias-Cerón
,
G.
Contreras-Puente
,
A.
Hernández-Hernández
,
J.
Santoyo-Salazar
,
M. de la L.
Olvera
,
M. A.
Santana-Aranda
,
M.
Zapata-Torres
,
J. G.
Mendoza-Álvarez
, and
M.
Meléndez-Lira
,
J. Appl. Phys.
112
,
113110
(
2012
).
20.
N.
Abbas Shah
,
A.
Ali
, and
A.
Maqsood
,
J. Electr. Mater.
37
,
145
(
2008
).
21.
22.
S. K.
O'Leary
,
S.
Zukotynski
, and
J. M.
Perz
,
J. Non-Cryst. Solids
210
,
249
(
1997
).
23.
R. A.
Abdullah
,
N. M.
Saeed
,
H. Kh. Al
Khalid
, and
M. A.
Razooqi
,
Int. J. Sci. Res.
2
,
368
(
2013
).
24.
R. M.
Yas
,
Iraqi J. Phys.
10
,
71
(
2012
).
25.
S. A.
Mahmoud
,
S.
Alshomer
, and
M. A.
Tarawnh
,
J. Mod. Phys.
2
,
1178
(
2011
).
26.
J. C.
Manifacier
,
J.
Gasiot
, and
J. P.
Fillard
,
J. Phys. E: Sci. Instrum.
9
,
1002
(
1976
).
27.
R.
Swanepoel
,
J. Phys. E: Sci. Instrum.
16
,
1214
(
1983
);
R.
Swanepoel
,
J. Phys. E: Sci. Instrum.
17
,
896
(
1984
).
28.
A.
Majid
,
A.
Dar
,
A.
Nabi
,
A.
Shakoor
,
N.
Hassan
,
A.
Junjua
, and
Z.
Jianjun
,
Mater. Chem. Phys.
136
,
809
(
2012
).
29.
J.
Pantoja Enriquez
,
N. R.
Mathews
,
G.
Pérez Hernández
, and
X.
Mathew
,
Mater. Chem. Phys.
142
,
432
(
2013
).
30.
W. C.
Tan
,
K.
Koughia
,
J.
Singh
, and
S. O.
Kasap
, “
Fundamental optical properties of materials I
,” in
Optical Properties of Condensed Matter and Applications
, edited by
J.
Singh
(
John Wiley & Sons, Ltd.
,
2006
), p.
1.19
.
31.
X.
Sun
,
Z.
Liu
, and
H.
Cao
,
J. Alloys Compd.
504S
,
S418
(
2010
).
32.
F.
Li
,
C.
Jing
,
X.
Ling
,
S.
Wei-Ning
,
Y.
Yao
,
X.
Jun
, and
M.
Zhong-Yuan
,
Chin. Phys. B
22
,
098802
(
2013
).
33.
B. P.
Singh
,
V. S.
Baghel
, and
K. S.
Baghel
,
Indian J. Pure Appl. Phys.
47
,
793
(
2009
).
34.
R. R.
Reddy
,
Y.
Nazeer Ahammed
,
K.
Rama Gopal
,
P.
Abdul Azeem
, and
T. V. R.
Rao
,
Indian J. Pure Appl. Phys.
40
,
471
(
2002
).
35.
J. I.
Pankove
,
Optical Processes in Semiconductors
(
Dover Publications Inc.
,
New York
,
1975
), p.
91
.
36.
C.
Kittel
,
Introduction to Solid State Physics
, 7th ed. (
John Wiley & Sons Inc.
,
Singapore
,
1996
), p.
308
.
37.
M. F.
AL-Mudhaffer
,
M. A.
Nattiq
, and
M. Ali
Jaber
,
Arch. Appl. Sci. Res.
4
,
1731
(
2012
).
38.
S. H.
Wemple
and
M. Di
Domenico
,
Phys. Rev. B
3
,
1338
(
1971
).
39.
40.
D. R.
Penn
,
Phys. Rev. B
128
,
2093
(
1962
).
42.
H.
Poignant
,
Electron. Lett.
17
,
973
(
1981
).
43.
C. R.
Corwine
, Ph. D dissertation,
Colorado State University
, USA,
2006
;
S.-H.
Wei
,
S. B.
Zhang
, and
A.
Zunger
,
J. Appl. Phys.
87
,
1304
(
2000
).
44.
D. P.
Halliday
,
J. M.
Eggleston
, and
K.
Durose
,
J. Cryst. Growth
186
,
543
(
1998
).
45.
N.
Usha
,
R.
Sivakumar
, and
C.
Sanjeeviraja
,
Mater. Sci. Semicond. Process.
30
,
31
(
2015
).
46.
Z. Raza
Khan
,
M.
Zulfequar
, and
M. Shahid
Khan
,
Bull. Mater. Sci.
35
,
169
(
2012
).
47.
G. A.
Kulkarni
,
V. G.
Sathe
,
K. S. R. K.
Rao
,
D. V. S.
Muthu
, and
R. K.
Sharma
,
J. Appl. Phys.
105
,
063512
(
2009
).
48.
Z.
Bai
,
J.
Yang
, and
D.
Wang
,
Appl. Phys. Lett.
99
,
143502
(
2011
).
49.
V. V.
Ison
,
A.
Ranga Rao
, and
V.
Dutta
,
Solid State Sci.
11
,
2003
(
2009
).
50.
A.
Luque
and
S.
Hegedus
,
Handbook of Photovoltaic Science and Engineering
(
John Wiley & Sons Ltd
,
England
,
2003
), pp.
617
662
.
You do not currently have access to this content.