• 한국재료학회지
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• 제21권11호
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• pp.587-591
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• 2011

The effect of the precipitator (NaOH, $NH_4OH$) and the amount of the precipitator (150, 200, 250, 300 ml) on the formation of $Fe_3(PO_4)_2$, which is the precursor used for cathode material $LiFePO_4$ in Li-ion rechargeable batteries was investigated by the co-precipitation method. A pure precursor of olivine $LiFePO_4$ was successfully prepared with coprecipitation from an aqueous solution containing trivalent iron ions. The acid solution was prepared by mixing 150 ml $FeSO_4$(1M) and 100 ml $H_3PO_4$(1M). The concentration of the NaOH and $NH_4OH$ solution was 1 M. The reaction temperature (25$^{\circ}C$) and reaction time (30 min) were fixed. Nitrogen gas (500 ml/min) was flowed during the reaction to prevent oxidation of $Fe^{2+}$. Single phase $Fe_3(PO_4)_2$ was formed when 150, 200, 250 and 300 ml NaOH solutions were added and 150, 200 ml $NH_4OH$ solutions were added. However, $Fe_3(PO_4)_2$ and $NH_4FePO_4$ were formed when 250 and 300 ml $NH_4OH$ was added. The morphology of the $Fe_3(PO_4)_2$ changed according to the pH. Plate-like lenticular shaped $Fe_3(PO_4)_2$ formed in the acidic solution below pH 5 and plate-like rhombus shaped $Fe_3(PO_4)_2$ formed around pH 9. For the $NH_4OH$, the pH value after 30 min reaction was higher with the same amount of additions of NaOH and $NH_4OH$. It is believed that the formation mechanism of $Fe_3(PO_4)_2$ is quite different between NaOH and $NH_4OH$. Further investigation on this mechanism is needed. The prepared samples were characterized by X-ray diffraction (XRD), scanning electron microscopy (SEM), and the pH value was measured by pH-Meter.

• 방사성폐기물학회지
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• 제5권4호
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• pp.267-272
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• 2007

RI 폐기물 내에 있는 낮은 방사능의 요오드의 함량을 결정하기 위해 산분해법과 BPGe 감마 선분광계를 이용하는 방법이 개발되었다. 분석에 앞서 모의시료인 제염지 내에 $^{131}I$이 일정량 첨가되었으며, 100 mL의 0.4 N $K_2Cr_2O_7$와 100 mL의 9 M $H_2SO_4$, 10 mL의 30% $H_3PO_3$, 1 mL의 $H_2O_2$를 넣고 산분해과정을 거치면서 증류된 용액을 응축하여 포집하였다. $CCl_4$의 용매추출에 의한 화학 분리과정을 거친 후 $AgNO_3$를 첨가해서 얻은 AgI 침전물을 여과하고 건조하여 측정하였다. 산분해 과정, 화학 분리과정, 여과 및 침전과정 등 세 단계로 나눠 회수율을 측정한 결과, 각각 94% 이상의 회수율을 나타냈으며, 본 연구의 측정조건에서 최소검출방사능은 0.6 Bq/g이었다.

• 한국전기전자재료학회논문지
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• 제27권9호
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• pp.582-588
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• 2014

3 mol% Co-added $Ni(OH)_2$ fine powders, which showed ${\beta}$-phase, as positive electrode materials have been fabricated using $NiSO_4{\cdot}6H_2O$ aqueous solution by ultrasonic spray-chemical precipitation and subsequent hydrothermal method, and sheet-like Ni nanopowder was fabricated by mechano-chemical reduction method. The addition effects of the sheet-like Ni nanopowder on the electrochemical properties of the positive electrode in Ni-Zn Redox flow battery were investigated. Impedance spectroscopy revealed that the addition of the sheet-like Ni nanopowder resulted in decrease in the electrical resistivity; 10 wt.% addition reduced the electrical properties by a fifth. Cyclic voltammetry showed the addition of the sheet-like Ni nanopowder resulted in decrease in the potential difference of oxidation and reduction; this means the increase in the reversability for electrode reduction. Charge/discharge measurement confirmed that the addition of the sheet-like Ni nanopowder resulted in the increase in the discharge efficiency.

• 공업화학
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• 제28권3호
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• pp.326-331
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• 2017

캐스터오일은 수소화반응을 통해 계면활성제의 중간체 등 유용한 화학산업의 원료로 활용 가능하다. 본 연구에서는 캐스터오일의 수소화용 니켈촉매의 제조조건과 전처리 조건에 대한 영향을 연구하였다. 니켈촉매는 침전제와 pH를 다르게 하여 실리카 담체상에 침전법으로 담지되었고, 다시 산화와 환원의 반복된 전처리를 행하였다. 니켈촉매의 활성은 캐스터오일의 요오드 가를 측정하여 비교하였고, 니켈촉매의 분산도는 XRD, BET, TEM을 통하여 분석하였다. 니켈촉매의 활성을 CO산화반응실험을 통하여도 비교하였다. 산화와 환원 사이클의 반복에 의해 니켈의 재분산이 실리카 상에서 발생하였고, 이것이 캐스터오일 수소화반응 활성을 증진시키는데 기여하였다.

• 한국광물학회지
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• 제16권3호
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• pp.223-232
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• 2003

리튬2차전지용 양극소재 개발을 위해 Li[L $i_{x}$M $n_{1-x-y}$C $r_{y}$ ] $O_2$를 공침법(co-p.ecipitation method)을 적용하여 각각 $650^{\circ}C$(CR650)와 8$50^{\circ}C$(CR850)에서 합성하였다. 리트벨트 구조분석 결과 계산의 정밀도를 나타내는 R 지수값을 보면 $R_{exp}$에 대한 $R_{wp}$값( $R_{wp}$/ $R_{exp}$)은 CR650과 CR850의 각각에 대해 19.2%/10.1%과 15.9%/9.76%를 보여주며, $R_{b}$값은 각각 10.9%와 8.54%, 그리고 S(GofF)값은 각각 1.9와 1.6으로 계산되었다. 합성된 양극소재는 공간군 R3m의 층상구조(LiMn $O_2$)가 존재하였으며, 전이금속 층 내의 Mn이 Li로 치환되면서(Li[L $i_{1}$3/M $n_{2}$3/] $O_2$) 단사구조(C2/c)의 거대격자(Superlattice) 구조현상도 관찰되었다. 계산된 단위포는 공간군 R3m, CR650이 a=2.8520(2)$\AA$, c=14.248(2)$\AA$, V=100.40(1)$\AA^3$이며, CR850은 a=2.8504(1)$\AA$, c=14.2371(7)$\AA$, V=100.179(8)$\AA^3$으로 각각 계산되었다. 또한 최종 결정된 화학식은 CR650은 Li[L $i_{0.35}$M $n_{0.56}$C $r_{0.09}$] $O_2$, CR850은 Li[L $i_{0.27}$M $n_{0.61}$C $r_{0.13}$] $O_2$으로 각각 구해졌다.다...다..구해졌다.다...다..

• 광물과산업
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• 제26권
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• pp.1-12
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• 2013

In this study, an accelerated carbonation process was applied to stabilize hazardous heavy metals of industrial solid waste incineration (ISWI) bottom ash and fly ash, and to reduce $CO_2$ emissions. The most commonly used method to stabilize heavy metals is accelerated carbonation using a high water-to-solid ratio including oxidation and carbonation reactions as well as neutralization of the pH, dissolution, and precipitation and sorption. This process has been recognized as having a significant effect on the leaching of heavy metals in alkaline materials such as ISWI ash. The accelerated carbonation process with $CO_2$ absorption was investigated to confirm the leaching behavior of heavy metals contained in ISWI ash including fly and bottom ash. Only the temperature of the chamber at atmospheric pressure was varied and the $CO_2$ concentration was kept constant at 99% while the water-to-solid ratio (L/S) was set at 0.3 and $3.0dm^3/kg$. In the result, the concentration of leached heavy metals and pH value decreased with increasing carbonation reaction time whereas the bottom ash showed no effect. The mechanism of heavy metal-stabilization is supported by two findings during the carbonation reaction. First, the carbonation reaction is sufficient to decrease the pH and to form an insoluble heavy metal-material that contributes to a reduction of the leaching. Second, the adsorbent compound in the bottom ash controls the leaching of heavy metals; the calcite formed by the carbonation reaction has high affinity of heavy metals. In addition, approximately 5 kg/ton and 27 kg/ton $CO_2$ were sequestrated in ISWI bottom ash and fly ash after the carbonation reaction, respectively.

• 한국산학기술학회논문지
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• 제22권5호
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• pp.118-127
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• 2021

최근 대기환경에 대한 국민의 관심이 증대하고 있으며, 미세먼지 등으로 인하여 국민 건강이 위협 받고 있다. 또한 정부는 대기오염물질에 대한 모니터링을 확대하고, 환경기준을 강화하는 등 대기질 개선을 위한 노력을 지속하고 있다. 한반도 지역에 따라 대기질이 상이하기 때문에 원인 파악과 영향요인 탐색이 필요한 실정이다. 본 연구에서는 충남권에 위치한 도시의 대기환경과 지역적 차이를 탐색하였다. 연구방법으로 충남 3개 도시의 대기질 현황을 확인하고, 기온, 풍속, 강수, 계절 등의 기상조건과 SO₂, NO₂, CO, PM₁₀, PM_2.5, O₃ 등의 대기오염물질과 입자상 물질에 포함된 Pb, Cd, Cr, Cu, Ni, As, Mn, Fe, Al, Ca, Mg 등의 중금속 성분을 대상으로 회귀분석을 수행하였다. 분석결과 PM₁₀ 농도의 경우, 천안은 Mn(0.4884), 당진은 CO(0.3329), 서산은 Mg(0.5691) 농도에 의한 기여도가 높았다. PM_2.5의 경우, 천안 NO₂(0.4759), 당진 CO(0.4128), 서산 NO₂(0.3715)에 의한 영향이 크게 나타났다. 종합하면 대기질 측면에서 충남 지역별 영향요인이 상이하고, 기여도에 분명한 차이가 존재함으로 이를 고려한 정부의 지역별 대기질 관리가 요구 된다고 판단된다.

• Bulletin of the Korean Chemical Society
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• 제35권3호
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• pp.913-918
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• 2014

Five mol % tungsten-doped tin oxide ($W_{0.05}Sn_{0.95}O_2$, TTO5) was prepared by co-precipitation of $SnCl_4{\cdot}5H_2O$ and $WCl_4$, followed by calcination at $1000^{\circ}C$. The as-prepared TTO5 was in the pure cassiterite phase with a particle size of ~50 nm and optical bandgap of 2.51 eV. Herein it was applied for the formation of TTO5/$TiO_2$ heterojunctions by covering the TTO5 surface with $TiO_2$ by sol-gel method. Under visible-light irradiation (${\lambda}{\geq}420$ nm), TTO5/$TiO_2$ showed a significantly high photocatalytic activity in removing gaseous 2-propanol (IP) and evolving $CO_2$. It is deduced that its high visible-light activity is caused by inter-semiconductor holetransfer between the valence band (VB) of TTO5 and $TiO_2$, since the TTO5 nanoparticle (NP) exhibits the absorption edge at ~450 nm and its VB level is located more positive side than that of $TiO_2$. The evidence for the hole-transport mechanism between TTO5 and $TiO_2$ was also investigated by monitoring the holescavenging reaction with 1,4-terephthalic acid (TA).

• Bulletin of the Korean Chemical Society
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• 제35권11호
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• pp.3319-3325
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• 2014

Eu(III)-doped $CeO_2$ nanorods were prepared by a co-precipitation method at room temperature, and their photoluminescence profiles were examined with different Eu(III)-doping concentrations and thermal annealing temperatures. Scanning electron microscopy, X-ray diffraction crystallography and UV-Vis absorption spectroscopy were employed to examine the morphology, crystal structure and photon absorption profiles of the nanorods, respectively. Additionally, their 2D and 3D-photoluminescence profile maps were obtained to fully understand the photoluminescence mechanism. We found that the magnetic dipole $^5D_0{\rightarrow}^7F_1$ and the electric dipole $^5D_0{\rightarrow}^7F_2$ transitions of Eu(III) were highly dependent on the doping concentration, annealing temperature and excitation wavelength, which was explained by the presence of different Eu(III)-doping sites (with and without an inversion center) in the $CeO_2$ host with a cubic crystal structure.

• 한국세라믹학회지
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• 제25권6호
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• pp.631-638
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• 1988

Effect of Ca/P mole ratio on the precipitates and powder properties of hydroxyapatite was investigated. Powder and precipitates of hydroxyapatite were synthesized by the reaction of Ca(NO3)2.4H2O and (NH4)2 HPO4 solutions at room temperature. The pH value and compositions (Ca/P mole ratio) in starting solutions were 11 and 1.64-1.79(or 1.85), respectively. Rodlike hydroxyapatite precipitates were agglomerated together. The average agglomerated particle size was ranged from 2-8${\mu}{\textrm}{m}$. Among compositions, the minimum agglomerated particle size was shown at the Ca/P mole ratio 1.75. CO2 was contained in hydroxyapatite powders and these ultrafine powders had poor crystallinity. The specific surface area and specific total pore volume of hydroxyapatite powders were 104-137$m^2$/g and 0.396-0.467cc/g, respectively. When the Ca/P mole ratio was 1.75, these values were the maximum. And water content increased with the Ca/P mole ratio(Ca/P mole ratio>1.67). In most cases, hydroxyapaite was stable to 130$0^{\circ}C$. However, in the case of Ca/P mole ratio 1.64, hydroxyapatite was changed to $\alpha$-whitlockite at 120$0^{\circ}C$.