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"Densification"

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"Densification"

Sintering and the Optical Properties of Mn3O4-added Al2O3
Jin-ho Kim, Seung-woo Baik
J Electr Electron Mater 2016;29(9):539-545.   Published online September 1, 2016
Alumina added with Mn3O4 up to 7.5 cat% of Mn was prepared by conventional ceramic processing, and the sintering behavior and the optical properties of which were studied as functions of Mn content. Densification and grain growth of alumina were enhanced by Mn addition up to 0.75 cat% but was leveled off at higher concentrations. XRD revealed that Al2MnO4(galaxite) was formed as a second phase in the specimens with more than 0.75 cat% of Mn. Thus it is believed that either the solid solution effect of Mn or the Zener effect of Al2MnO4 becomes predominant in the sintering of Mn-added Al2O3 according to the additive concentration. UV-VIS reflectivity(SCI) spectra of Mn-added Al2O3 consisted of smooth bottoms in 300~550 nm wavelength range and plateaus at wavelengths longer than 650 nm. The reflectivity spectrum continuously moved downward, and the specimen color became darker and thicker with increasing Mn content. The CIELAB color change with respect to standard white was also dependent on the amount of Mn added: TRIANGLE L^{*} (D65) negatively increased and TRIANGLE E _{ab} ^{*} (D65) positively increased with increasing Mn content, probably due to Mn substitution to Al and/or the mixing effect of black Al2MnO4 as a second phase.
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Display and Optical Devices : Electrical Properties of Al3+ and Y3+ Co-doped SnO2 Transparent Conducting Films
Geun Woo Kim, Yong Jun Seo, Chang Hoon Sung, Keun Young Park, Ho Je Cho, Si Nae Heo, Bon Heun Koo
J Electr Electron Mater 2012;25(10):805-810.   Published online October 1, 2012
Transparent conducting oxides (TCOs) have wide range of application areas in transparent electrode for display devices, Transparent coating for solar energy heat mirrors, and electromagnetic wave shield. SnO2 is intrinsically an n-type semiconductor due to oxygen deficiencies and has a high energy-band gap more than 3.5eV. It is known as a transparent conducting oxide because of its low resistivity of 10-3Ωcm and high transmittance over 90% in visible region. In this study, co-doping effects of Al and Y on the properties of SnO2 were investigated. The addition of Y in SnO2 was tried to create oxygen vacancies that increase the diffusivity of oxygen ions for the densification of SnO2. The addition of Al was expected to increase the electron concentration. Once, we observed solubility limit of SnO2 single-doped with Al and Y. {(x/2) Al2O3+(x/2) Y2O3}-SnO2 was used for the source of Al and Y to prevent the evaporation of Al2O3 and for the charge compensation. And we observed the valence changes of aluminium oxide because generally reported of valence changes of aluminium oxide in Tin - Aluminium binary system. The electrical properties, solubility limit, densification and microstructure of SnO2 co-doped with Al and Y will be discussed.
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Influence of Precursor Solution Coating Parameters on Ferroelectric Properties of Pb(Zr(0.7),Ti(0.3))O3 Thick Films
J Electr Electron Mater 2006;19(12):1092-1098.   Published online December 1, 2006
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Effect of Composition and Coating of Precursor Solution on a Micro Structural Properties of PZT Thick Films
J Electr Electron Mater 2006;19(11):1014-1019.   Published online November 1, 2006
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