R. Diaz et al., CHARACTERIZATION OF QUATERNARY CUGA1-XINXTE2 THIN-FILMS DEPOSITED BY THERMAL EVAPORATION, Journal of physics. D, Applied physics, 28(6), 1995, pp. 1162-1168
Structural, electrical and optical properties of thin films of the Cu-
In-Ga-Te system grown by thermal evaporation have been studied relatin
g the measured film composition to these properties. Above a substrate
temperature of 250 degrees C the chalcopyrite structure is obtained a
nd films deficient in Te by up to 16% show this structure. The optical
absorption coefficients of the films present two or three inflection
regions corresponding to several energy gaps, two direct and one forbi
dden direct gap. The first direct gaps lie between 0.46 and 0.88 eV an
d the second ones in the 1.01-1.37 eV range. The forbidden direct gaps
are in the 0.94-1.83 eV range. The first gap appears only in the samp
les with Cu/In > 1.06. The values of the second energy gap and the cel
l parameters of tetragonal phase depend on composition, i.e. on Cu/Ga
atomic ratios. The measured resistivities and mobilities of samples ar
e ranged in the 0.001-1.63 Omega cm and 5-38 cm(2) V-1 s(-1) ranges re
spectively. The samples were p-type or n-type; those with a defect in
Te were n-type. Thermal treatments have been done in a hydrogen flux a
t 350 degrees C. This annealing varies notably the initial number of p
hases of the films notably.