• 분석과학
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• 제9권1호
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• pp.43-51
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• 1996

가온 가압법에 의하여 합성된 Li-EaGICs, Li-EGICs를 자발적으로 분해시켜서 이들의 deintercalation 과정에 대하여 X-선 회절분석, 열분해분석 및 전기비저항값을 측정하여 이들 결과에 대하여 토론하였다. Intercalation에 대한 X-선 회절분석 결과에 의하면, Li-EaGICs 와 Li-EGICs는 1 stage가 완전하게 형성되지 않았고, 주로 저차 stage가 형성되었다. 또한 deintercalation 결과에 의하면, 4주 이후에는 deintercalation이 멈추었으며 Li-EGDlCs는 Li-EaGDlCs보다 층간 잔유 금속을 많이 가지고 있음을 알 수 있다. 열분해분석 결과에 의하면 두가지 하합물 모두 강한 밭열반응을 수반하였으며, 또한 $400^{\circ}C$ 이상에서는 반응이 수반되지 않는 것으로 보아 intercalants들이 완전히 deintercalation 되었음을 알 수 있다. 전기 비저항 측정 결과에 의하면 Li-EGDlCs는 상대적으로 낮은 비저항값을 가지고 있었으며, Li-EaGDICs는 이상적인 비저항 곡선을 나타내었다. 이들 결과로부터 Li-EaGICs가 Li-EGlCs 보다 2차 전지의 양극재료로서 더 좋은 성질을 가지고 있음을 알 수 있다.

• 한국결정성장학회지
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• 제10권5호
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• pp.362-366
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• 2000

$Li_{0.44}MnO_2$양극재료는 리튬의 삽입과정에서 높은 가역성을 가지며 과충전이나 과방전 과정에서 쉽게 손상되지 않는다. $Mn_2O_3$가 불순물로 자주 나타나며 전기화학적으로 비활성이기 때문에 전극의 전기화학적 용량을 감소시킨다. 잉여의 NaOH 첨가는 $Mn_2O_3$를 X선 회절에 검출되지 않는 정도로 낮추었다. 용량 증가는 큰 단위세포를 가지는 양극재료에서 얻어질 수 있으므로, 망간의 일부를 이온반경이 큰 티타니움으로 치환하였으며, $Li_{0.44}T_{iy}Mn_{1-y}O_2$(여기서 y = 0.11, 0.22, 0.33, 0.44, 0.55) 조성의 분말들을 합성하여 특성을 평가하였다. ECPS 실험결과 $Li/P(EO)_8$LiTFSI/$LixTi_{0.22}Mn_{0.78}O_2$전지에서 150 mAh/g 최대가역용량 값이 얻어졌다. 티타니움이 치환된 망간산화물을 사용한 전지는 충방전당 0.12 %나 그 이하의 용량감소율을 나타내었다.

• 대한전기학회:학술대회논문집
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• 대한전기학회 1997년도 하계학술대회 논문집 C
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• pp.1603-1605
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• 1997

$LiNiO_2$ is prepared by heating LiOH $H_2O$ and $Ni(OH)_2$ (mole ratio 1:1). In this study, we investigated X-ray diffraction, and charge/discharge property heat treatment condition and conductive agent sort and volume of $LiNiO_2$ prepared at various temperature and time. All $LiNiO_2$ prepared at this study showed hexagonal structure. In charge/discharge capacities, heated at $O_2$ than air and $750^{\circ}C$ than $700^{\circ}C$, specific capacity is higher. Therefore, when preliminary heat at $650^{\circ}C$ $O_2$ and heat at $750^{\circ}C$ carried out, charge/discharge property is best.

• 한국분말재료학회지
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• 제31권2호
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• pp.163-168
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• 2024

As the demand for lithium-ion batteries for electric vehicles is increasing, it is important to recover valuable metals from waste lithium-ion batteries. In this study, the effects of gas flow rate and hydrogen partial pressure on hydrogen reduction of NCM-based lithium-ion battery cathode materials were investigated. As the gas flow rate and hydrogen partial pressure increased, the weight loss rate increased significantly from the beginning of the reaction due to the reduction of NiO and CoO by hydrogen. At 700 ℃ and hydrogen partial pressure above 0.5 atm, Ni and Li₂O were produced by hydrogen reduction. From the reduction product and Li recovery rate, the hydrogen reduction of NCM-based cathode materials was significantly affected by hydrogen partial pressure. The Li compounds recovered from the solution after water leaching of the reduction products were LiOH, LiOH·H₂O, and Li₂CO₃, with about 0.02 wt% Al as an impurity.

• Bulletin of the Korean Chemical Society
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• 제32권12호
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• pp.4316-4320
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• 2011

The effects of various hydroxide compounds on base stacking (BS) were investigated for pre-concentration of DNA molecules in capillary electrophoresis (CE). In BS, hydroxide ions ($OH^-$) were electrokinetically introduced after DNA sample injection. A neutralization reaction occurred between the $OH^-$ and $Tris^+$ of the running buffer, which resulted in a zone of lower conductivity. Within the low conductivity zone of the high electric field, the DNA molecules moved more rapidly and were concentrated in front of the low conductivity zone. At the same BS conditions of CE, the enhanced sensitivity of the DNA samples was dependent on the kind of multivalent cations in the hydroxide compounds. Except for LiOH, the hydroxide compounds with monovalent cations showed more effective BS than those with divalent cations because of solubility, ionic strength and electronegativity. The order of hydroxide compounds that enhance the detection sensitivity of DNA molecules was as follows: NaOH > $NH_4OH$ > KOH > $Ba(OH)_2$ > $Sr(OH)_2$ > LiOH > $Ca(OH)_2$ > $Mg(OH)_2$. $NH_4OH$, KOH and $Ba(OH)_2$ proved to be efficient hydroxide compounds to use as effective BS reagents in CE instead of NaOH.

• 한국전기전자재료학회:학술대회논문집
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• 한국전기전자재료학회 2008년도 추계학술대회 논문집 Vol.21
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• pp.429-429
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• 2008

Li$[Ni_{1/2}Co_{1/2}]O_2$ powder were synthesized from co-precipitation spherical metal oxide, $[Ni_{1/2}Co_{1/2}](OH)_2$. The preparation of metal hydroxide was significantly dependent on synthetic conditions, such as pH, amount of chelating agent, stirring speed, etc. The optimized condition resulted in $[Ni_{1/2}Co_{1/2}](OH)_2$, of which the particle size distribution was uniform and the particle shape was spherical, as observed by scanning electron microscopy. Calcination of the uniform metal hydroxide with LiOH at higher temperature led to a well-ordered layer-structured Li$[Ni_{1/2}Co_{1/2}]O_2$, as confirmed by X-ray diffraction pattern. Also these materials have ${\alpha}-NaFeO_2$ ($R\bar{3}m$) structure. Due to the homogeneity of the metal hydroxide, $[Ni_{1/2}Co_{1/2}](OH)_2$, the final product, Li$[Ni_{1/2}Co_{1/2}]O_2$, was also significantly uniform, i.e., the average particle size was of about 10 to 15 ${\mu}m$ in diameter and the distribution was relatively narrow. As a result, the corresponding tap-density was also high approximately 2.41 $gcm^{-3}$, of which the value is comparable to that of commercialized $LiCoO_2$.

• 대한기계학회:학술대회논문집
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• 대한기계학회 2000년도 춘계학술대회논문집B
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• pp.228-233
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• 2000

An experimental study has been performed regarding heat and mass transfer in a falling film absorber of domestic small-sized absorption chiller/heater. Components were concentrically arranged in cylindrical form : from the center, with a series of low temperature generator, absorber and evaporator. The arrangement of such helical-typed heat exchangers allows to make the system more compact as compared to conventional one. Experimental measurements were conducted with a helical absorber using $LiBr+LiI+LiNO_3+LiCl$ and LiBr solutions. As a result, the heat and mass flux performance of $LiBr+LiI+LiNO_3+LiCl$ solution shows the tendency of $2{\sim}5%$ increase. Therefore, $LiBr+LiI+LiNO_3+LiCl$ solution can be taken consideration into applying to small-sized absorption chiller/heater because of using without crystal through high concentration as 4wt% comparing with LiBr solution.

• 전기화학회지
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• 제20권1호
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• pp.7-12
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• 2017

$LiNi_{0.6}Co_{0.2}Mn_{0.2}O_2$의 전구체 물질에 KCl을 첨가함으로써, 리튬카보네이트($Li_2CO_3$)와 리튬수산화물(LiOH)의 양을 감소시켰을 때 전기화학특성에 어떤 영향을 주는지에 대한 연구를 진행하였다. KCl을 1 질량 %로 전구체에 첨가하여 $800^{\circ}C$에서 열처리 한 샘플의 경우, 첨가하지 않은 재료와 대비하여 잔류하는 리튬카보네이트($Li_2CO_3$)는 8,464 ppm에서 1,639 ppm으로 리튬수산화물(LiOH)은 8,088 ppm에서 6,287 ppm으로 크게 감소하였다. XRD 분석결과 KCl의 첨가는 모상구조에 영향을 주지 않았으며, 층상구조 결정성이 약간 개선되는 효과가 확인되었다. 또한, 전하전달 저항($R_{ct}$)은 $255{\Omega}$에서 KCl 첨가 시 $99{\Omega}$으로 감소하였다. 초기 방전 용량은 171.04 mAh/g에서 182.73 mAh/g으로 증가하였으며 싸이클 특성도 개선되었다. 특히, AFM 분석을 통하여 표면적이 50% 감소하는 것을 확인하였는데, 이는 잔류리튬의 산화반응으로 인한 열 때문일 것으로 해석되고, 전해질과의 부반응을 억제할 수 있는 장점이 있었다. 잔류리튬 제거를 위해 KCl을 첨가한 연구는, 아직까지 발표된 바가 없으며, $LiNi_{0.6}Co_{0.2}Mn_{0.2}O_2$계 양극활물질의 전기화학특성을 개선하는데 매우 효과적임을 본 연구를 통해 확인할 수 있었다.

• 도시과학
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• 제7권2호
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• pp.53-60
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• 2018

Digital Twin is a technology that creates a photocopy of real-world objects on a computer and analyzes the past and present operational status by fusing the structure, context, and operation of various physical systems with property information, and predicts the future society's countermeasures. In particular, 3D rendering technology (UAS, LiDAR, GNSS, etc.) is a core technology in digital twin. so, the research and application are actively performed in the industry in recent years. However, UAS (Unmanned Aerial System) and LiDAR (Light Detection And Ranging) have to be solved by compensating blind spot which is not reconstructed according to the object shape. In addition, the terrestrial LiDAR can acquire the point cloud of the object more precisely and quickly at a short distance, but a blind spot is generated at the upper part of the object, thereby imposing restrictions on the forward digital twin modeling. The UAS is capable of modeling a specific range of objects with high accuracy by using high resolution images at low altitudes, and has the advantage of generating a high density point group based on SfM (Structure-from-Motion) image analysis technology. However, It is relatively far from the target LiDAR than the terrestrial LiDAR, and it takes time to analyze the image. In particular, it is necessary to reduce the accuracy of the side part and compensate the blind spot. By re-optimizing it after fusion with UAS and Terrestrial LiDAR, the residual error of each modeling method was compensated and the mutual correction result was obtained. The accuracy of fusion-based 3D model is less than 1cm and it is expected to be useful for digital twin construction.

• 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.