• 한국재료학회지
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• 제22권6호
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• pp.316-320
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• 2012

$Co_3O_4$, $Al_2O_3$ and $Co_3O_4$/$Al_2O_3$ mesoporous powders were prepared by a sol-gel method with starting matierals of aluminum isopropoxide and cobalt (II) nitrate. A P123 template is employed as an active organic additive for improving the specific surface area of the mixed oxide by forming surfactant micelles. A transition metal cobalt oxide supported on alumina with and without P123 was tested to find the most active and selective conditions as a heterogeneous catalyst in the reaction of styrene epoxidation. A bBlock copolymer-P123 template was added to the staring materials to control physical and chemical properties. The properties of $Co_3O_4$/$Al_2O_3$ powder with and without P123 were characterized using an X-ray diffractometer (XRD), a Field-Emission Scanning Electron Microscope (FE-SEM), a Bruner-Emmertt-Teller (BET) surface analyzer, and $^{27}Al$ MAS NMR spectroscopy. Powders with and without P123 were compared in catalytic tests. The catalytic activity and selectivity were monitored by GC/MS, $^1H$, and $^{13}C$-NMR spectroscopy. The performance for the reaction of epoxidation of styrene was observed to be in the following order: [$Co_3O_4$/$Al_2O_3$ with P123-1173 K > $Co_3O_4$/$Al_2O_3$ with P123-973 K > $Co_3O_4$-973 K>$Co_3O_4$/$Al_2O_3$-973 K > $Co_3O_4$/$Al_2O_3$ with P123-1473 K > $Al_2O_3$-973 K]. The existence of ${\gamma}$-alumina and the nature of the surface morphology are related to catalytic activity.

• 한국세라믹학회지
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• 제26권2호
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• pp.210-220
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• 1989

The properties of the powder of Al2O3-15v/o ZrO2(＋3m/o Y2O3) system prepared by co-precipitation method at the pH values of 7, 9, 10 and 11 were investigated. Al2(SO4)3.18H2O, ZrOCl2.8H2O and YCl3.6H2O were used as starting materials and NH4OH as a precipitation agent. Zirconium hydroxide decreased the specific surface area of aluminum hydroxide of AlOOH type, while increased the specific surface area of aluminum hydroxide of Al(OH)3 type, and formed co-network structure of Al-O-Zr type with the aluminum hydroxides. The rate of transition to $\alpha$-Al2O3 from co-precipitated materials occurred in the order of 7≒10, 9 and 11 of pH values. Al2O3 and ZrO2 interacted to bring about coupled grain growth, and the growth of ZrO2 crystallite size rapidly occurred within $\theta$-Al2O3 matrix. Segregation did not occur in the system Al2O3-15v/o ZrO2(＋3m/o Y2O3) and Y2O3 acted as a stabilizer to ZrO2. The lattice strain of tetragonal ZrO2 was increased by the constraint effect of Al2O3 matrix.

• 한국결정성장학회지
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• 제11권4호
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• pp.154-159
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• 2001

(Li,Al)$MnO_2(OH)_2$:Co 화합물의 합성르 수열법에 의해 행하였다. 출발원료는 $MnO_2$, LiOH.$H_2$O, $Co_3O_4$, $Al(OH)_3$이 사용되었으며, 단일상의 (Li,Al)$MnO_2(OH)_2$:Co 화합물을 얻을 수 있는 최적의 합성조건은 다음과 같았다. 반응온도 : $200^{\circ}C$ 반응시간 ; 3일간, 반응장치 ; 시이소형, 수열용매 ; 3M-KOH, (Li,Al)$MnO_2(OH)_2$:Co 의 원자비 = 1:2.1:2.5~2:0.5~1. 수열합성된 단사의 (Li,Al)$MnO_2(OH)_2$:Co 화합물은 결정성이 우수하였으며, 청색안료로써 천연 오수에 필적하는 발색효과를 나타내었다. 합성된 (Li,Al)$MnO_2(OH)_2$:Co 화합물의 형태는 육각 판싱이였으며, 입자의 크기는 0.5~1 $\mu\textrm{m}$의 미립자이였다.

• 멤브레인
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• 제27권3호
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• pp.226-231
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• 2017

이산화탄소 분리를 위해 이온성 액체/금속 산화물 복합막이 제조되었으며, 이온성 액체로서 1-butyl-3-methylimidazolium tetrafluoroborate ($BMIM^+BF_4{^-}$)와 금속산화물로서 $Al_2O_3$가 사용되었다. 13 nm의 $Al_2O_3$가 이온성 액체 $BMIM^+BF_4{^-}$에 도입되었을 때, 복합체 분리막의 성능은 $CO_2/N_2$ 선택도 30.5과 $CO_2$ 투과도 45.7 GPU로 관찰되었다. neat $BMIM^+BF_4{^-}$ 분리막의 성능($CO_2/N_2$ 선택도 5와 $CO_2$ 투과도 17 GPU)에 비해서 성능이 증가한 이유는 $Al_2O_3$의 옥사이드 층과 이온성 액체 내 자유로운 이온농도의 상승으로 인해 $CO_2$ 용해도가 상승한 것으로 확인되었다. 특히 $Al_2O_3$ 나노입자는 질소 기체에 대해서 장애물로서 작용함으로써 질소기체의 투과도가 감소하여 결과적으로 이산화탄소 분리 성능은 급격히 증가하였다.

• 한국전기전자재료학회:학술대회논문집
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• 한국전기전자재료학회 2008년도 추계학술대회 논문집 Vol.21
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• pp.195-195
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• 2008

CAS계 유리에 $CaCO_3-Al_2O_3$ 혼합물 및 화합물을 10, 30 wt% 첨가하여 저온 소걸 및 마이크로파 유전 특성을 고찰하였다. CAS계 유리의 연화온도는 $841^{\circ}C$ 이며, CAS계 유리에 $CaCO_3$ 와 30 wt%의 $CaCO_3-Al_2O_3$ 혼합물을 melting되며, 10 wt%의 $CaCO_3$, $Al_2O_3$, $1CaCO_3-1Al_2O_3$ 혼합물 및 $CaAl_2O_4$ 화합물를 10 wt% 첨가하였을 때 $900^{\circ}C$ 이하에서 소걸이 가능하였다. 복합체의 XRD 상 분석 결과, CaCO3를 첨가하였을 때에는 모든 조성이 비정질을 나타내었고, $Al_2O_3$와 $1CaCO_3-1Al_2O_3$ 혼합물은 $Al_2O_3$ 결정상이 생성되었고, $CaAl_2O_4$ 화합물은 $CaAl_2Si_2O_8$의 hexagonal와 anorthite 결정상이 생성되었다. 따라서 CAS-10 (A, C-A, CA) 복합체는 $900^{\circ}C$에서 각각 유전율 ($\varepsilon_r$) 6.4, 6.9, 5.15 와 품질계수 ($Q^*f$) 2,400, 1,500, 3,000의 마이크로파 유전 특성을 나타내어 LTCC 기판 재료로 사용이 가능하며, 특히 $CaAl_2O_4$ 화합물을 사용하였을 때 가장 우수한 유전 특성을 나타내는 것을 확인하였다.

• 한국전기전자재료학회논문지
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• 제22권5호
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• pp.397-404
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• 2009

Effects of ceramic filler types and dose on the low temperature sintering and dielectric properties of ceramic/$CaO-Al_2O_3-SiO_2$ (CAS) glass composites were investigated. All of the specimens were sintered at $850{\sim}900^{\circ}C$ for 2 h, which conditions are required by the low-temperature co-firing ceramic (LTCC) technology. Ceramic fillers of $CaCO_3$, $Al_2O_3$, $CaCO_3-Al_2O_3$ mixture, and $CaCO_3-Al_2O_3$ compound ($CaAl_2O_4$), respectively, were used. The addition of $Al_2O_3$ yielded the crystalline phase of alumina, which was associated with the inhibition of sintering, while, $CaCO_3$ resulted in no apparent crystalline phase but the swelling was significant. The additions of $CaCO_3-Al_2O_3$ mixture and $CaAl_2O_4$, respectively, yielded the crystalline phases of alumina and anorthite, and the sintering properties of both composites increased with the increase of filler addition and the sintering temperature. In addition, the $CaAl_2O_4$/CAS glass composite, sintered at $900^{\circ}C$, demonstrated good microwave dielectric properties. In overall, all the investigated fillers of 10 wt% addition, except $CaCO_3$, yielded reasonable sintering (relative density, over 93 %) and low dielectric constant (less than 5.5), demonstrating the feasibility of the investigated composites for the application of the LTCC substrate materials.

• 한국세라믹학회지
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• 제19권4호
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• pp.309-315
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• 1982

$FeAl_2O_4$ was formed from the starting material of $Fe_2O_3$ and $Al_2O_3$ by controlling the oxygen partial pressure using $H_2-CO_2$ gas mixture, over the temperature range of 800~120$0^{\circ}C$. The formation mechanism of $FeAl_2O_4$ was found to be a second order chemical reaction, and the activation energy of formation was observed as 39.97 kcal/mole. Vaporization behavior of $FeAl_2O_4$ under $CO_2$ atmosphere was observed over the temperature range of 800~120$0^{\circ}C$. $FeAl_2O_4$ was vaporized by a second order chemical reaction and the activation energy was found to be 21.8kcal/mole. Electrical conductivity of $FeAl_2O_4$ was also measured.

• 공업화학
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• 제35권1호
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• pp.1-7
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• 2024

NO, CO 및 CH₄의 동시 산화를 위한 4 종의 Mn-M/Al₂O₃ (M = Cu, Fe, Co, Ce) 촉매를 제조하여 산화 활성을 비교하고, 동시 산화활성이 가장 높은 Mn-Cu/Al₂O₃ 촉매에 대해 XRD, Raman, XPS, O₂-TPD 분석을 수행하였다. XRD 분석 결과, Mn-Cu/Al₂O₃ 촉매에서는 담지된 Mn과 Cu는 복합산화물로 존재하였다. Raman 및 XPS 분석을 통해 Mn-Cu/Al₂O₃ 촉매는 Mn-O-Cu 결합의 형성 과정에서 Mn 이온과 Cu 이온 간의 전자 수수가 일어남을 알 수 있었다. XPS O 1s 및 O₂-TPD 분석을 통해 Mn-Cu/Al₂O₃ 촉매는 Mn/Al₂O₃ 촉매에 비해 이동성이 우수한 흡착산소 종이 증가했음을 알 수 있었다. Mn-Cu/Al₂O₃ 촉매의 높은 동시 산화 활성은 이러한 결과에 기인한다고 판단된다. Mn-Cu/Al₂O₃ 촉매 상에서 NO는 CO와 CH₄ 산화를 촉진하지만, NO 산화는 억제되었다. 이는 NO로부터 산화된 NO₂가 CO 및 CH₄의 산화제로 사용되었기 때문이라고 추측된다. CO와 CH₄의 산화 반응은 경쟁하지만 촉매 활성 온도가 다르기 때문에 그 효과가 두드러지지 않았다.

• 한국세라믹학회지
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• 제26권3호
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• pp.423-437
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• 1989

Al2O3/ZrO2 composites were prepared by precipitation method using Al2(SO4)3.18H2O, ZrOCl2.8H2O and YCl3.6H2O as starting materials and NH4OH as a precipitation agent. Al2O3/ZrO2 composites(series A) were prepared by mixing Al2O3 powder obtained by single precipitation method with ZrO2(＋3m/o Y2O3) powder obtained by co-predipitation method. Al2O3/ZrO2 composites (series B) were prepared by co-precipitation method using the three starting materials. In all cases, the composition was controlled as Al2O3-15v/o ZrO2(＋3m/o Y2O3). The composites of series A showed higher final relative densities than those of series B and tetagonal ZrO2 in all cases was retained to about 95% at room temperature. ZrO2 particles were coalesced more rapidly in grain boundary of Al2O3 than within Al2O3 grain. ZrO2 particles were located at 3-and 4-grain junction of Al2O3 and limited the grain growth of Al2O3. It was observed that MgO contributed to densification of Al2O3 but limited grain growth of Al2O3 by MgO was not remarkable. In all Al2O3/ZrO2 composites, exaggerated grain growth of Al2O3 was not observed and Al2O3/ZrO2 composites were found to have homogeneous microstructures.

• 한국분말재료학회지
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• 제21권5호
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• pp.377-381
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• 2014

This work describes the coloration, chemical stability of $SiO_2$ and $SnO_2$-coated blue $CoAl_2O_4$ pigment. The $CoAl_2O_4$, raw materials, were synthesized by a co-precipitation method and coated with silica ($SiO_2$) and tin oxide ($SnO_2$) using sol-gel method, respectively. To study phase and coloration of $CoAl_2O_4$, we prepared nano sized $CoAl_2O_4$ pigments which were coated $SiO_2$ and $SnO_2$ using tetraethylorthosilicate, $Na_2SiO_3$ and $Na_2SiO_3$ as a coating material. To determine the stability of the coated samples and their colloidal solutions under acidic and basic conditions, colloidal nanoparticle solutions with various pH values were prepared and monitored over time. Blue $CoAl_2O_4$ solutions were tuned yellow color under all acidic/basic conditions. On the other hand, the chemical stability of $SiO_2$ and $SnO_2$-coated $CoAl_2O_4$ solution were improved when all samples pH values, respectively. Phase stability under acidic/basic condition of the core-shell type $CoAl_2O_4$ powders were characterized by transmission electron microscope, X-ray diffraction, CIE $L^*a^*b^*$ color parameter measurements.