TY - JOUR
T1 - Electrical and structural study on indium zinc oxide thin films by sputtering process
AU - Li, Chuan
AU - Hsieh, J. H.
AU - Liu, S. J.
AU - Lin, W. S.
PY - 2013/9/25
Y1 - 2013/9/25
N2 - One disadvantage of currently available indium-zinc oxides (IZOs) is the high content of indium. This high composition of In is costly and difficult for massive production, which is crucially required for solar energy and display applications. IZOs already demonstrated higher optical transmittance (>75%) than that of aluminum zinc oxides (AZO); better resistance to water vapor than zinc oxides (ZnO); and relatively good electrical conductivity. Therefore, improvements of IZOs could be worthy of attention. In this study, relatively low indium IZO thin films were deposited on glass substrates using magnetron sputtering with a mixed 53wt.% In2O3+47wt.% ZnO target. To monitor the process, both Langmuir probe and optical emission spectrometer were employed to investigate the plasma conditions. Several parameters such as plasma potential, electron and ion densities were carefully recorded and analyzed. On the other hand, the structure and electrical resistivity of films were examined by XRD and four-point probe. The correlations between the process parameters (Ar flow rate) and films' properties were assessed based upon results from the plasma diagnostics.
AB - One disadvantage of currently available indium-zinc oxides (IZOs) is the high content of indium. This high composition of In is costly and difficult for massive production, which is crucially required for solar energy and display applications. IZOs already demonstrated higher optical transmittance (>75%) than that of aluminum zinc oxides (AZO); better resistance to water vapor than zinc oxides (ZnO); and relatively good electrical conductivity. Therefore, improvements of IZOs could be worthy of attention. In this study, relatively low indium IZO thin films were deposited on glass substrates using magnetron sputtering with a mixed 53wt.% In2O3+47wt.% ZnO target. To monitor the process, both Langmuir probe and optical emission spectrometer were employed to investigate the plasma conditions. Several parameters such as plasma potential, electron and ion densities were carefully recorded and analyzed. On the other hand, the structure and electrical resistivity of films were examined by XRD and four-point probe. The correlations between the process parameters (Ar flow rate) and films' properties were assessed based upon results from the plasma diagnostics.
KW - IZO thin film
KW - Langmuir probe
KW - Optical emission spectrum
KW - Plasma diagnostics
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U2 - 10.1016/j.surfcoat.2012.04.084
DO - 10.1016/j.surfcoat.2012.04.084
M3 - Article
AN - SCOPUS:84882821387
SN - 0257-8972
VL - 231
SP - 471
EP - 477
JO - Surface and Coatings Technology
JF - Surface and Coatings Technology
ER -