• Industry Promotion Research
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• v.1 no.1
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• pp.7-11
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• 2016

It was the electrical properties of IGZO prepared by the annealing in a vaccum and an atmosphere conditions to research the current-voltage characteristics. The IGZO film annealed in a vaccum became an amorphous structure but films annealed in an atmosphere condition had a crystal structure. Because of the content of oxygen vacancies during the annealing processes was changed, and the annealing in an atmosphere condition increased the oxygen vacancy in IGZO. Oxygen vacancy in IGZO increased the current and then it was observed the Ohmic contact at IGZO annealed in an atmosphere conditions. However, the IGZO prepared in a vaccum showed the Schottky contact.

• Transactions on Electrical and Electronic Materials
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• v.17 no.3
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• pp.143-145
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• 2016

In order to find suitable source and drain (S/D) electrodes for amorphous InGaZnO thin film transistors (a-IGZO TFTs), the specific contact resistance of interface between the channel layers and various S/D electrodes, such as Ti/Au, a-IZO and multilayer of a-IGZO/Ag/a-IGZO, was investigated using the transmission line model. The a-IGZO TFTs with a-IGZO/Ag/a-IGZO of S/D electrodes had good performance and low contact resistance due to the homo-junction with channel layer. The stability was measured with different electrodes by a positive bias stress test. The result shows the a-IGZO TFTs with a-IGZO/Ag/a-IGZO electrodes were more stable than other devices.

• Transactions on Electrical and Electronic Materials
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• v.16 no.3
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• pp.139-141
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• 2015

Contact resistance of interface between the channel layers and various S/D electrodes was investigated by transmission line method. Different electrodes such as Ti/Au, a-IZO, and multilayer of a-IGZO/Ag/a-IGZO were compared in terms of contact resistance, using the transmission line model. The a-IGZO TFTs with a-IGZO/Ag/a-IGZO of S/D electrodes showed good performance and low contact resistance due to the homo-junction with channel layer.

• Proceedings of the Korean Vacuum Society Conference
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• 2013.02a
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• pp.497-497
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• 2013

Semiconducting amorphous InGaZnO (a-IGZO) has attracted significant research attention as improved deposition techniques have made it possible to make high-quality a-IGZO thin films. IGZO thin films have several advantages over thin film transistors (TFTs) based on other semiconducting channel layers.The electron mobility in IGZO devices is relatively high, exceeding amorphous Si (a-Si) by a factor of 10 and most organic devices by a factor of $10^2$. Moreover, in contrast to other amorphous semiconductors, highly conducting degenerate states can be obtained with IGZO through doping, yet such a state cannot be produced with a-Si. IGZO thin films are capable of mobilities greaterthan 10 $cm^2$/Vs (higher than a-Si:H), and are transparent at visible wavelengths. For oxide semiconductors, carrier concentrations can be controlled through oxygen vacancy concentration. Hence, adjusting the oxygen partial pressure during deposition and post-deposition processing provides an effective method of controlling oxygen concentration. In this study, we deposited IGZO thinfilms at optimized conditions and then analyzed the film's electrical properties, surface morphology, and crystal structure. Then, we explored how to generate IGZO thin films using DC magnetron sputtering. We also describe the construction and characteristics of a bottom-gate-type TFT, including the output and transfer curves and bias stress instability mechanism.

• Industry Promotion Research
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• v.1 no.1
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• pp.1-6
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• 2016

To research the correlation between the amorphous and crystal structure of oxide semiconductors, AZO and IGZO films were deposited and annealed with various temperatures in a vacuum state. AZO increased the degree of crystal structure with increasing the annealing temperature, but IGZO became an amorphous structure after the annealing process at high temperature. The series of AZO films with various annealing temperatures showed the chemical shift from the analyzer of PL and O 1s spectra, but the results of IGZO films by PL and O 1s spectra were not observed the chemical shift. The binding energy of oxygen vacancy of AZO with a crystal structure was 531.5 eV, and that of IGZO with an amorphous structure was 530 eV as a lower binding energy.

• Journal of the Korean Society for Heat Treatment
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• v.28 no.6
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• pp.291-295
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• 2015

IGZO single layer and $IGZO/TiO_2$ bi-layered films were deposited on glass substrate at room temperature with radio frequency magnetron sputtering to investigate the effect of $TiO_2$ buffer layer on the electrical and optical properties of the films. For all deposition, the thickness of IGZO and $TiO_2$ Buffer layer was kept at 100 and 5 nm, respectively. In a comparison of figure of merit, IGZO films with a 5-nm-thick $TiO_2$ buffer layer show the higher figure of merit ($8.40{\times}10^{-5}{\Omega}^{-1}$) than that of the IGZO single layer films ($6.23{\times}10^{-5}{\Omega}^{-1}$) due to the enhanced optical transmittance and the decreased sheet resistance of the films. The observed results mean that a 5 nm thick $TiO_2$ buffer layer in the $IGZO/TiO_2$ films results in better electrical and optical performance than conventional IGZO single layer films.

• Journal of the Korean Ceramic Society
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• v.53 no.1
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• pp.110-115
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• 2016

We prepared a working electrode (WE) coated with 0 ~ 50 nm-thick indium gallium zinc oxide(IGZO) by using RF sputtering to improve the energy conversion efficiency (ECE) of a dye sensitized solar cell (DSSC). Transmission electron microscope (TEM) and energy dispersive spectroscopy (EDS) were used to analyze the microstructure and composition of the IGZO layer. UV-VIS-NIR spectroscopy was used to determine the transparency of the WE with IGZO layers. A solar simulator and a potentiostat were used to confirm the photovoltaic properties of the DSSC with IGZO layer. From the results of the microstructural analysis, we were able to confirm the successful deposition of an amorphous IGZO layer with the expected thickness and composition. From the UV-VIS-NIR analysis, we were able to verify that the transparency decreased when the thickness of IGZO increased, while the transparency was over 90% for all thicknesses. The photovoltaic results show that the ECE became 4.30% with the IGZO layer compared to 3.93% without the IGZO layer. As the results show that electron mobility increased when an IGZO layer was coated on the $TiO_2$ layer, it is confirmed that the ECE of a DSSC can be enhanced by employing an appropriate thickness of IGZO on the $TiO_2$ layer.

• Proceedings of the Korean Vacuum Society Conference
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• 2015.08a
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• pp.178.2-178.2
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• 2015

In and Ga doped ZnO (IGZO) films were deposited on 5 nm thick Cu film buffered Polycarbonate (PC) substrates with RF magnetron sputtering and then the effect of Cu buffer layer on the optical and electrical properties of the films was investigated. While IGZO single layer films show the electrical resistivity of $1.2{\times}10-1{\Omega}cm$, IGZO/Cu bi-layered films show a lower resistivity of $1.6{\times}10-3{\Omega}cm$. Although the optical transmittance of the films in a visible wave length range is deteriorated by Cu buffer layer, IGZO films with 5 nm thick Cu buffer layer show the higher figure of merit of $2.6{\times}10-4{\Omega}-1$ than that of the IGZO single layer films due to the enhanced opto-electrical performance of the IGZO/Cu bi-layered films.

• Proceedings of the Korean Vacuum Society Conference
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• 2013.02a
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• pp.479-479
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• 2013

산화물 반도체 물질을 이용한 Thin film transistor (TFT) 소자는 기존의 비정질 Si TFT와 저온 다결정 Si TFT 소자가 가지지 못하는 장점들이 보고되면서 차세대 디스플레이용 소자로 주목을 받고 있다. 그 중 TFT의 채널 물질로 a-IGZO가 많이 활용되고 있다. a-IGZO의 활용이 더 많아지고 있는 이유는 저온공정이 가능하고 3.2 eV의 큰 밴드갭으로 투명하며 높은 균일도, 캐리어 이동도를 모두 가지고 있기 때문이다. 본 연구에서는 산화물 물질인 IGZO를 채널 층으로 사용한 TFT소자에서 IGZO의 캐리어인 전자의 이동경로를 금속을 통하여 이동하게 함으로써 전기적 특성의 변화를 관찰하였다. TFT는 다수 캐리어가 게이트 전압에 의하여 박막 아래쪽에 채널을 형성하여 동작한다. 이 때 IGZO박막과 SiO2 사이의 Al을 증착하여 다수 캐리어인 전자의 이동도를 향상시켰다. 전극으로 사용되어지는 Al은 IGZO박막과 ohmic contant이기 때문에 전자의 이동이 어렵지 않기 때문이다. 소자 제작은 게이트로 도핑된 P형 기판을 사용하였고 게이트 절연체로 SiO2 200 nm를 증착하였다. 채널층로 IGZO를 증착하기 전에 게이트 절연체 위에 evaporation으로 Al을 20 nm를 증착하였다. 이때 mask는 $2.4{\times}10^{-4}cm^2$ 크기의 dot 형태를 사용하였다. Al을 증착 후 RF sputtering으로 IGZO를 30 nm 증착하였으며 $350^{\circ}C$에서 90 min 동안 열처리하였다. 소스와 드레인은 evaporation으로 Al을 100 nm 증착하였다. HB 4145B 측정기로 I-V 그래프를 통하여 전기적 특성의 변화를 관찰하였다.

• Korean Journal of Materials Research
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• v.19 no.1
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• pp.24-27
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• 2009

Indium Gallium Zinc Oxide (IGZO) thin films were deposited onto 300 nm-thick oxidized Si substrates and glass substrates by direct current (DC) magnetron sputtering of IGZO targets at room temperature. FESEM and XRD analyses indicate that non-annealed and annealed IGZO thin films exhibit an amorphous structure. To investigate the effect of an annealing treatment, the films were thermally treated at $300^{\circ}C$ for 1hr in air. The IGZO TFTs structure was a bottom-gate type in which electrodes were deposited by the DC magnetron sputtering of Ti and Au targets at room temperature. The non-annealed and annealed IGZO TFTs exhibit an $I_{on}/I_{off}$ ratio of more than $10^5$. The saturation mobility and threshold voltage of nonannealed IGZO TFTs was $4.92{\times}10^{-1}cm^2/V{\cdot}s$ and 1.46V, respectively, whereas these values for the annealed TFTs were $1.49{\times}10^{-1}cm^2/V{\cdot}$ and 15.43V, respectively. It is believed that an increase in the surface roughness after an annealing treatment degrades the quality of the device. The transmittances of the IGZO thin films were approximately 80%. These results demonstrate that IGZO thin films are suitable for use as transparent thin film transistors (TTFTs).