TY - JOUR
T1 - Modulation of argon pressure as an option to control transmittance and resistivity of ZnO:Al films deposited by DC magnetron sputtering: on the dark yellow films at 10-7 Torr base pressures
T2 - On the dark yellow films at 10 -7 Torr base pressures
AU - Valenzuela, Jorge Alberto García
AU - Cabrera-German, Dagoberto
AU - Cota-Leal, Marcos
AU - Suárez-Campos, Guillermo
AU - Martínez-Gil, Miguel
AU - Romo-García, Frank
AU - Baez-Gaxiola, Martha Raquel
AU - Sotelo-Lerma, Mérida
AU - Andreu, Jordi
AU - Bertomeu, Joan
N1 - Publisher Copyright:
© 2018 Sociedad Mexicana de Fisica.
PY - 2018/10
Y1 - 2018/10
N2 - In a previous paper, we reported that thin films of ZnO:Al [aluminum-zinc oxide (AZO)] deposited after achieving a very low base pressure [from 4:0 × 10 -7 Torr (5:6 × 10 -5 Pa) to 5:7 × 10 -7 Torr (7:6 × 10 -5 Pa)] result dark yellow in color and are resistive. These are undesirable characteristics for the application of AZO thin films as front electrodes in solar cells. However, given the increasingly tendency in the acquisition of equipment that allows us to reach excellent vacuum levels, it is necessary to find the deposition conditions that lead to an improving of transmittance without greatly impacting the electrical properties of materials deposited after achieving these levels of vacuum. In this way, the present work is focused on AZO thin films deposited after achieving a very low base pressure value: 4:2 × 10 -7 Torr (5:6 × 10 -5 Pa). For this, we studied the effect of the variation of the oxygen volume percent in the argon/oxygen mixture (by maintaining the deposition pressure constant) and the effect of deposition pressure with only argon gas on the main properties of AZO thin films. The depositions were done at room temperature on glass substrates by direct-current magnetron sputtering with a power of 120W(corresponding to a power density of 2.63 W/cm 2 ). As a result, we found that the variation of deposition pressure with only argon gas is a good option for the control of optical and electrical properties, since the addition of oxygen, although improves transmittance, greatly impacts on the electrical properties. Furthermore, an interesting correlation was found between the optical and electrical properties and the chemical composition of the AZO films, the latter depending on the argon pressure (for this, a careful X-ray photoelectron spectroscopy analysis was performed). Also, the inverse relationship between crystallinity and deposition rate was confirmed, in which deposition rate inversely depends on argon pressure.
AB - In a previous paper, we reported that thin films of ZnO:Al [aluminum-zinc oxide (AZO)] deposited after achieving a very low base pressure [from 4:0 × 10 -7 Torr (5:6 × 10 -5 Pa) to 5:7 × 10 -7 Torr (7:6 × 10 -5 Pa)] result dark yellow in color and are resistive. These are undesirable characteristics for the application of AZO thin films as front electrodes in solar cells. However, given the increasingly tendency in the acquisition of equipment that allows us to reach excellent vacuum levels, it is necessary to find the deposition conditions that lead to an improving of transmittance without greatly impacting the electrical properties of materials deposited after achieving these levels of vacuum. In this way, the present work is focused on AZO thin films deposited after achieving a very low base pressure value: 4:2 × 10 -7 Torr (5:6 × 10 -5 Pa). For this, we studied the effect of the variation of the oxygen volume percent in the argon/oxygen mixture (by maintaining the deposition pressure constant) and the effect of deposition pressure with only argon gas on the main properties of AZO thin films. The depositions were done at room temperature on glass substrates by direct-current magnetron sputtering with a power of 120W(corresponding to a power density of 2.63 W/cm 2 ). As a result, we found that the variation of deposition pressure with only argon gas is a good option for the control of optical and electrical properties, since the addition of oxygen, although improves transmittance, greatly impacts on the electrical properties. Furthermore, an interesting correlation was found between the optical and electrical properties and the chemical composition of the AZO films, the latter depending on the argon pressure (for this, a careful X-ray photoelectron spectroscopy analysis was performed). Also, the inverse relationship between crystallinity and deposition rate was confirmed, in which deposition rate inversely depends on argon pressure.
KW - Argon pressure
KW - Base pressure
KW - Electrical resistivity
KW - Optical transmittance
KW - Sputter deposition
KW - Transparent conductive oxide
KW - Zinc oxide
UR - http://www.scopus.com/inward/record.url?scp=85061576971&partnerID=8YFLogxK
U2 - 10.31349/revmexfis.64.566
DO - 10.31349/revmexfis.64.566
M3 - Artículo
SN - 0035-001X
VL - 64
SP - 566
EP - 576
JO - Revista Mexicana de Fisica
JF - Revista Mexicana de Fisica
IS - 6
ER -