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"Post-annealing"

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"Post-annealing"

e investigated the effects of post-annealing in vacuum, nitrogen, and hydrogen atmospheres on the structural, electrical, and optical properties of 600 nm thick Al-doped ZnO (ZnO:Al) thin films deposited by RF magnetron sputtering at room temperature. Post-annealing in hydrogen atmosphere at 400℃ for 1 hour showed the most significant improvement in electrical properties. Resistivity decreased from 9.11×10⁻³ to 1.4×10⁻³ Ω·cm, electron mobility increased from 4.11 to 18.23 cm²/V·s, and electron carrier concentration increased from 1.63×10²⁰ to 4.85×10²⁰ cm⁻³. In contrast, post-annealing in vacuum and nitrogen atmospheres resulted in degraded electrical properties due to oxygen and nitrogen chemisorption at grain boundaries. The enhancement in hydrogen-annealed films was attributed to the formation of additional oxygen vacancies and desorption of adsorbed oxygen species from grain boundaries. All films maintained excellent optical transparency of 80-90% in the visible range. The optical bandgap exhibited a blue-shift from 3.365 eV to 3.624 eV due to the Burstein-Moss effect induced by the increased electron carrier concentration. These results confirmed that hydrogen atmosphere post-annealing is the most effective method for enhancing the electrical conductivity of ZnO:Al thin films while maintaining high optical transparency.
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Effects of Film Thickness and Post-Annealing Temperature on Properties of the High-Quality ITO Thin Films with RF Sputtering Without Oxygen
Jiha Seong, Hyungmin Kim, Seongmin Shin, Kyunghwan Kim, Jeongsoo Hong
J Electr Electron Mater 2024;37(3):253-260.   Published online May 1, 2024
DOI: https://doi.org/10.4313/JKEM.2024.37.3.3
In this study, ITO thin films were fabricated on a glass substrate at different thicknesses without introducing oxygen using RF sputtering system. The structural, electrical, and optical properties were evaluated at various thicknesses ranging from 50 to 300 mm. As the thickness of deposited ITO thin film become thicker from 50 to 100 mm, carrier concentration, mobility, and band gap energy also increased while the resistivity and transmittance decreased in the visible light region. When the film thickness increased from 100 to 300 mm, the carrier concentration, mobility, and band gap energy decreased while the resistivity and transmittance increased. The optimum electrical properties were obtained for the ITO film 100 nm. After optimizing the thickness, the ITO thin films were post-annealed at different temperatures ranging from 100 to 300℃. As the annealing temperature increased, the ITO crystal phase became clearer and the grain size also increased. In particular, the ITO thin film annealed at 300℃ indicated high carrier concentration (4.32 × 1021 cm-3), mobility (9.01 cm2/V·s) and low resistivity (6.22 × 10-4 Ω·cm). This means that the optimal post-annealing temperature is 300℃ and this ITO thin film is suitable for use in solar cells and display application.
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Evaluation of Electrical Properties of IZO Thin-Film with UV Post-Annealing Treatment Time
Jae-yun Lee, Han-sang Kim, Sung-jin Kim
J Electr Electron Mater 2020;33(2):93-98.   Published online March 1, 2020
DOI: https://doi.org/10.4313/JKEM.2021.33.2.3
We investigated the effect of a post-annealing process using ultraviolet (UV) light on the electrical properties of solution-processed InZnO (IZO) thin-film transistors (TFTs). UV light was irradiated on IZO TFTs for different time periods of 0s, 30s, and 90s. We measured transfer and retention stability curves to evaluate the performance of the fabricated TFTs. In addition, we measured height, amplitude, and phase AFM images to analyze changes in the surface and morphology of the devices. AFM measurements were performed by setting the drive amplitude of the cantilever tip to 47.9 mV in tapping mode, then dividing the device surface into 500 nm × 500 nm. In the case of IZO TFT irradiated with UV for 30s, the electron mobility and Ion/Ioff ratio were improved, the threshold voltage was reduced by approximately 2 V, and the subthreshold swing also decreased form 1.34 V/dec to 1.11 V/dec.
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Energy Materials : Composition Control of a Light Absorbing Layer of CuInSe2 Thin Film Solar Cells Prepared by Electrodeposition
Young Il Park, Dong Hwan Kim, Kyung Won Seo, Jeung Hyun Jeong, Hong Gon Kim
J Electr Electron Mater 2013;26(3):232-239.   Published online March 1, 2013
Thin light-active layers of the CuInSe2 solar cell were prepared on Mo-coated sodalime glass substrates by one-step electrodeposition and post-annealing. The structure, morphology, and composition of CuInSe2 film could be controlled by deposition parameters, such as the composition of metallic precursors, the concentration of complexing agents, and the temperature of post-annealing with elemental selenium. A dense and uniform Cu-poor CuInSe2 film was successfully obtained in a range of parametric variation of electrodeposition with a constant voltage of -0.5 V vs. a Ag/AgCl reference electrode. The post-annealing of the film at high temperature above 500℃ induced crystallization of CuInSe2 with well-developed grains. The KCN-treatment of the annealed CuInSe2 films further induced Cu-poor CuInSe2 films without secondary phases, such as Cu2Se. The structure, morphology, and composition of CuInSe2 films were compared with respect to the conditions of electrodeposition and post-annealing using SEM, XRD, Raman, AES and EDS analysis. And the conditions for preparing device-quality CuInSe2 films by electrodeposition were proposed.
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Analysis on the Electrical,optical Properties and Fabrication of OLED with AZO Anode Electrode
J Electr Electron Mater 2007;20(4):357-362.   Published online April 1, 2007
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Analysis on the Optical Properties and Fabrication of Textured AZO Thin Films for Increasing the Efficiency of LED
J Electr Electron Mater 2006;19(10):901-906.   Published online October 1, 2006
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Formation of N Doped, p-type ZnO Films by Post-annealing in NH3 Ambient
J Electr Electron Mater 2006;19(7):611-617.   Published online July 1, 2006
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Annealing Effect and Tunability of BaZr0.08Ti0.92O3 Polycrystal Grown in N2 Gas Atmosphere by Floating Zone Technique
J Electr Electron Mater 2004;17(11):1178-1185.   Published online November 1, 2004
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