TY - JOUR
T1 - Changes in the structural and electrical properties of vacuum post-annealed tungsten- and titanium-doped indium oxide films deposited by radio frequency magnetron sputtering
AU - Yan, L.T.
AU - Schropp, R.E.I.
PY - 2011
Y1 - 2011
N2 - Tungsten- and titanium-doped indium oxide (IWO and ITiO) filmswere deposited at room temperature by radio
frequency (RF) magnetron sputtering, and vacuum post-annealing was used to improve the electron mobility.
With increasing deposition power, the as deposited films showed an increasingly crystalline nature. Compared
with ITiO films, IWO films showed crystallinity at lower RF power. IWO films are partially crystallized at 10W
deposition power and become nearly fully crystalline at 20 W. ITiO films are fully crystalline only at 75W. For
this reason, film thickness has a greater impact on the electrical properties of IWO films than ITiO films. Vacuum
post-annealing is more effective in improving electron mobility for amorphous than for (partially) crystalline
IWO and ITiO films. Changes in the electrical properties of ITiO films can be better controlled as a function of
annealing temperature than those of IWO films. Finally, post annealed 308 nm-thick IWO and 325 nm-thick
ITiO films have approximately 80% transmittance in visible and near infrared wavelengths (up to 1100 nm),
while their sheet resistances decrease to 9.3 and 10 Ω/□, and their electron mobilities are 51 cm2V−1 s−1 and
50 cm2V−1 s−1, respectively, making them suitable for use as Transparent Conductive Oxide layers of lowbandgap
solar cells.
AB - Tungsten- and titanium-doped indium oxide (IWO and ITiO) filmswere deposited at room temperature by radio
frequency (RF) magnetron sputtering, and vacuum post-annealing was used to improve the electron mobility.
With increasing deposition power, the as deposited films showed an increasingly crystalline nature. Compared
with ITiO films, IWO films showed crystallinity at lower RF power. IWO films are partially crystallized at 10W
deposition power and become nearly fully crystalline at 20 W. ITiO films are fully crystalline only at 75W. For
this reason, film thickness has a greater impact on the electrical properties of IWO films than ITiO films. Vacuum
post-annealing is more effective in improving electron mobility for amorphous than for (partially) crystalline
IWO and ITiO films. Changes in the electrical properties of ITiO films can be better controlled as a function of
annealing temperature than those of IWO films. Finally, post annealed 308 nm-thick IWO and 325 nm-thick
ITiO films have approximately 80% transmittance in visible and near infrared wavelengths (up to 1100 nm),
while their sheet resistances decrease to 9.3 and 10 Ω/□, and their electron mobilities are 51 cm2V−1 s−1 and
50 cm2V−1 s−1, respectively, making them suitable for use as Transparent Conductive Oxide layers of lowbandgap
solar cells.
U2 - 10.1016/j.tsf.2011.08.060
DO - 10.1016/j.tsf.2011.08.060
M3 - Article
SN - 0040-6090
VL - 520
SP - 2096
EP - 2101
JO - Thin Solid Films
JF - Thin Solid Films
ER -