Synthetic analysis on the IZTO thin films deposited on various plastic substrates with the buffer layer
Buffer layers, such as SiO 2 , may prevent impurities from permeating into the depositing film. Thus, the effects of buffer layer thickness on indium-zinc-tin oxide (IZTO) thin films were investigated. IZTO thin films are applied to transparent conductive oxide, and SiO 2 is used as a material for t...
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Published in | Journal of materials science. Materials in electronics Vol. 28; no. 21; pp. 16155 - 16164 |
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Main Authors | , |
Format | Journal Article |
Language | English |
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New York
Springer US
01.11.2017
Springer Nature B.V |
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Abstract | Buffer layers, such as SiO
2
, may prevent impurities from permeating into the depositing film. Thus, the effects of buffer layer thickness on indium-zinc-tin oxide (IZTO) thin films were investigated. IZTO thin films are applied to transparent conductive oxide, and SiO
2
is used as a material for the buffer layer. Before depositing the IZTO by RF magnetron sputtering, the SiO
2
buffer layers were deposited on different plastic substrates, such as polyether sulfone, polyethylene terephthalate, and polyethylene naphthalate (PEN), by plasma enhanced chemical vapor deposition. The resulting structural, morphological, electrical, and optical properties were measured and analyzed. By using the obtained values of the electrical and optical properties, the figure of merit for transparent devices designed by Haacke was calculated. As a result, we conclude that the IZTO thin film deposited on a PEN substrate with a 30 nm thick SiO
2
buffer layer has the finest properties, which are a resistivity of 2.13 × 10
−3
Ω-cm, sheet resistance of 8.875 Ω sq
−1
, Hall mobility of 5.99 cm
2
V
−1
s
−1
, carrier concentration of 3.671 × 10
21
cm
−3
, and transmittance of 80.26% at 550 nm. In addition, the figure of merit calculated for this sample was 12.50 × 10
−3
/Ω. These results indicate that the proposed structure is suitable for flexible display devices and flexible solar cells. |
---|---|
AbstractList | Buffer layers, such as SiO
2
, may prevent impurities from permeating into the depositing film. Thus, the effects of buffer layer thickness on indium-zinc-tin oxide (IZTO) thin films were investigated. IZTO thin films are applied to transparent conductive oxide, and SiO
2
is used as a material for the buffer layer. Before depositing the IZTO by RF magnetron sputtering, the SiO
2
buffer layers were deposited on different plastic substrates, such as polyether sulfone, polyethylene terephthalate, and polyethylene naphthalate (PEN), by plasma enhanced chemical vapor deposition. The resulting structural, morphological, electrical, and optical properties were measured and analyzed. By using the obtained values of the electrical and optical properties, the figure of merit for transparent devices designed by Haacke was calculated. As a result, we conclude that the IZTO thin film deposited on a PEN substrate with a 30 nm thick SiO
2
buffer layer has the finest properties, which are a resistivity of 2.13 × 10
−3
Ω-cm, sheet resistance of 8.875 Ω sq
−1
, Hall mobility of 5.99 cm
2
V
−1
s
−1
, carrier concentration of 3.671 × 10
21
cm
−3
, and transmittance of 80.26% at 550 nm. In addition, the figure of merit calculated for this sample was 12.50 × 10
−3
/Ω. These results indicate that the proposed structure is suitable for flexible display devices and flexible solar cells. Buffer layers, such as SiO2, may prevent impurities from permeating into the depositing film. Thus, the effects of buffer layer thickness on indium-zinc-tin oxide (IZTO) thin films were investigated. IZTO thin films are applied to transparent conductive oxide, and SiO2 is used as a material for the buffer layer. Before depositing the IZTO by RF magnetron sputtering, the SiO2 buffer layers were deposited on different plastic substrates, such as polyether sulfone, polyethylene terephthalate, and polyethylene naphthalate (PEN), by plasma enhanced chemical vapor deposition. The resulting structural, morphological, electrical, and optical properties were measured and analyzed. By using the obtained values of the electrical and optical properties, the figure of merit for transparent devices designed by Haacke was calculated. As a result, we conclude that the IZTO thin film deposited on a PEN substrate with a 30 nm thick SiO2 buffer layer has the finest properties, which are a resistivity of 2.13 × 10−3 Ω-cm, sheet resistance of 8.875 Ω sq−1, Hall mobility of 5.99 cm2 V−1 s−1, carrier concentration of 3.671 × 1021 cm−3, and transmittance of 80.26% at 550 nm. In addition, the figure of merit calculated for this sample was 12.50 × 10−3/Ω. These results indicate that the proposed structure is suitable for flexible display devices and flexible solar cells. |
Author | Yoon, Yung-Sup Park, Jong-Chan |
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Snippet | Buffer layers, such as SiO
2
, may prevent impurities from permeating into the depositing film. Thus, the effects of buffer layer thickness on indium-zinc-tin... Buffer layers, such as SiO2, may prevent impurities from permeating into the depositing film. Thus, the effects of buffer layer thickness on indium-zinc-tin... |
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SubjectTerms | Buffer layers Buffers Carrier density Characterization and Evaluation of Materials Chemical vapor deposition Chemistry and Materials Science Display devices Electron mobility Figure of merit Hall effect Magnetron sputtering Materials Science Mathematical analysis Optical and Electronic Materials Optical properties Photovoltaic cells Plasma enhanced chemical vapor deposition Polyethylene Polyethylene naphthalate Polyethylene terephthalate Silicon dioxide Solar cells Substrates Thickness Thin films Titanium nitride Zinc oxide |
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Title | Synthetic analysis on the IZTO thin films deposited on various plastic substrates with the buffer layer |
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