• Korean Journal of Optics and Photonics
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• v.14 no.5
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• pp.515-520
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• 2003

Characteristics of an amplifier with repetition rate of a few KHz is investigated. The continuous flash lamp pumped Nd:YAG laser head is used as an amplifier. The thermally induced birefringence of the laser medium is compensated and the depolarization is reduced to 5% in a double-pass amplifier. The amplification factor of a four pass amplifier reaches to about 3.2 at the repetition rate 5-10 KHz and the pulse width is lengthened from 40 ns to 48 ns.

• Proceedings of the Optical Society of Korea Conference
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• 2009.10a
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• pp.255-267
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• 2009

PDP용 형광체는 소성 후 입자간 결합부족으로 인한 탈락현상 및 셀 결함 불량과 Red, Green, Blue 간 유전율 불일치로 인한 방전불량 현상 등의 문제점을 안고 있다. PDP용 형광체의 소성 후 입자간의 결합력을 증진시키기 위하여 frit을 조제로 첨가하였고, 이에 따른 기계적, 전기적, 광학적 특성의 변화를 조사하였다. 사용된 frit은 자체 소결시 무색의 투명하고 ZnO-$B_2O_3-SiO_2-Al_2O_3$계 비정질 세라믹 재료이며, 연화점은 $499.78^{\circ}C$이다. 형광체 중량의 3${\sim}$20wt% 범위에서 frit의 첨가량 변화에 따른 영향을 조사하였다. Frit의 첨가량이 증가할수록 경도가 증진 되었고, 5wt% 미만 함유될 경우 Red, Green, Blue 형광체 모두 유전율 조절 효과가 미약하였다. Red 형광체는 frit함량이 3wt% 이상 함유되면 휘도가 90% 미만으로 감소하였고, Green과 Blue는 frit 함량이 10wt%이상 함유되면 확연하게 휘도가 감소 하였다.

• Proceedings of the Korean Vacuum Society Conference
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• 2012.02a
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• pp.301-301
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• 2012

지구 온난화와 화석 연료의 고갈이 심각해지면서 청정 에너지원으로서 신재생에너지에 대한 관심이 더욱 고조되고 있다. 신재생에너지 분야의 핵심기술의 하나인 태양전지의 여러 응용분야 중에서 건물 일체형 태양전지의 발전 가능성이 특히 높게 평가되고 있다. Si 계 박막 태양전지 내에 금속 산화물 계 선택적 투과막을 적용하면 선택적으로 적외선영역을 광흡수층으로 반사시키므로 건물 일체형 태양전지에 적용이 가능한 높은 변환효율의 투명 태양전지를 제조할 수 있다. 최근 연구 결과에 의하면 AlTiO 선택적 투과막의 투과율은 표면 평탄도에 의존하며, 타겟에 인가되는 전력을 감소시킴으로써 reactive co-sputtering 시 발생하는 아크 방전을 억제하면 AlTiO 박막의 평탄도가 개선된다는 사실이 알려져 있다. 본 연구에서는 AlTi single 타겟을 이용하여 AlTiO 박막을 형성함으로써 박막 표면을 더욱 개선시켜 가시광선 영역의 투과율을 향상시킨 결과를 보고한다.

• Proceedings of the Korean Institute of Electrical and Electronic Material Engineers Conference
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• 2004.07a
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• pp.511-514
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• 2004

본 연구에서는 trimethylolpropane triacrylate(TMPTA)를 사용한 겔폴리머전해질의 전기화학적 특성에 대하여 조사하였다. 겔고분자전해질의 상온 이온전도도는 약 $5.0{\times}10^{-3}S{\cdot}cm^{-1}$이었으며, 온도가 높아짐에 따라 이온전도도는 증가하였다. TMPTA계 겔고분자전해질은 4.5V(vs. $Li/Li^+$)까지의 전위영역에서 우수한 전기화학적 안정성을 나타내었으며, TMPTA계 겔고분자전해질을 적용한 리튬이온폴리머전지의 고율 및 저온 방전특성은 양호하였다. 또한 사이클수명도 200 사이클이 진행된 후에도 초기용량의 약 94%라는 높은 용량유지율을 나타내었다.

• Proceedings of the Korean Institute of Surface Engineering Conference
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• 2009.10a
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• pp.195-196
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• 2009

ITZO 박막과 $TIO_2$ 버퍼층은 각각 두 개의 캐소드를 사용한 마그네트론 2원동시 방전법과 산소 함량 2%를 사용한 반응성 sputtering 방법으로 각각 증착이 되었다. 모든 박막들은 상온에서 폴리머 기판인 PET에 증착되었다. $TiO_2$ 버퍼층을 도입함으로써 ITZO/$TiO_2$ 박막은 비정질 구조를 보여 주었고, 그것들의 비저항은 버퍼층의 두께가 증가할수록 감소함을 관찰하였다. 특히 기계적 특징은 $TiO_2$ 버퍼층을 5nm 증착하였을 경우에 bending test와 광학 현미경의 crack정도를 관찰함으로써 향상되었음을 확인할 수 있었다. 투과율에 있어서 단일 ITZO 박막과 버퍼층을 5nm 도입한 박막은 가시광선에서 약 75%의 투과율을 가짐을 알 수 있었다.

• Journal of Energy Engineering
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• v.22 no.2
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• pp.175-183
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• 2013

For the optimal design of the vehicle electric system, it is important to have a reliable modeling tool to predict the dynamic behavior of the automotive battery. In this work, a one-dimensional modeling was carried-out to predict the dynamic behaviors of a 12-V automotive lead-acid battery. The model accounted for electrochemical kinetics and ionic mass transfer in a battery cell. In order to validate the modeling, modeling results were compared with the experiment data of the dynamic behaviors of the lead-acid batteries of two different capacities that were mounted on the automobiles manufactured by Hyundai Motor Company. The discharge behaviors were measured with various discharge rates of C/3, C/5, C/10, C/20 and combination. And dynamic behaviors of charge and discharge were measured. The voltage curves from the experiment and simulation were in good agreement. Based on the modeling, the distributions of the electrical potentials of the solid and solution phases, and the current density within the electrodes could be predicted as a function of charge and discharge time.

• Clean Technology
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• v.20 no.4
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• pp.433-438
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• 2014

There is an increasing interest in the development of rechargeable batteries suitable for use in both hybrid electric vehicles and energy storage systems that require higher charge & discharge rates, bigger battery sizes and increased safety of the batteries. Spinel-type lithium titanium oxide ($Li_4Ti_5O_{12}$) as a potential anode for lithium ion batteries has many advantages. It is a zero-strain materials and it experiences no structural change during the charge/discharge precess. Thus, it has long cycle life due to its structural integrity. It also offers a stable operation voltage of approximately 1.55 V versus $Li^+/Li$, above the reduction potential of most organic electrolyte. In this study, Ru added $Li_4Ti_5O_{12}$ composites were synthesized by solid state process. The characteristics of active material were investigated with TGA-DTA, XRD, SEM and charge/discharge test. The capacity was reduced when Ru was added, however, the polarization decreased. The capacity rate of $Li_4Ti_5O_{12}$ with Ru (3%, 4%) addition was reduced during the charge/discharge precess with 10 C-rate as a high current density.

• Applied Chemistry for Engineering
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• v.27 no.4
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• pp.439-443
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• 2016

In this report, $MnO_2$ nanoparticle-deposited functionalized graphene sheets were prepared and their superior electrochemical performances were demonstrated by cyclic voltammetry, galvanostatic charge-discharge, and impedance analysis. Ionic liquids were employed to functionalize the surface of reduced graphene oxides (RGOs), leading to prevention of the aggregation of RGO sheets and abundant growth sites for deposition of $MnO_2$ nanoparticles. As-prepared $MnO_2/RGO$ nanocomposites were characterized using scanning electron microscope, transition electron microscope, X-ray photoelectron spectroscopy, and X-ray diffraction. Electrochemical properties of $MnO_2/RGO$ electrode were evaluated using $Na_2SO_4$ electrolyte under a three-electrode system. The $MnO_2/RGO$ electrode showed a high specific capacitance (251 F/g), a high rate capability (80.5% retention), and long-term stability (93.6% retention).

• Clean Technology
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• v.12 no.3
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• pp.138-144
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• 2006

Conversion of methane to synthesis gas in a capacitive rf plasma at low pressure was experimentally studied. In this plasma, electrons which had sufficient energy-level collided with the molecules of methane or oxygen-containing gas, which were than activated and converted to synthesis gas. The effect of input power, various oxygen-containing gas and composition of the gas mixture were investigated. The conversion of methane reached up to 100%. In all cases, hydrogen and carbon oxide were produced as primary products, and other compounds was generated. The conversion of methane and the yield of hydrogen and carbon oxides were increased with increasing the input power. Depending on the oxygen-containing gases, the composition of synthesis gas was varied.

• Journal of the Korean Electrochemical Society
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• v.5 no.2
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• pp.74-78
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• 2002

Zinc Air battery obtain their energy density advantage over the other batteries by utilizing ambient oxygen as the cathode materials, and reusing cathode as recycled form. And specific capacity of zinc powder is as high as 820 mAh/g. However, if the pore size in cathode is small then the flow rate of air decreased, and as a result of that discharge voltage of batteries becomes low. We focused on resistance and porosity of cathode. So we studied the effects of conducting agents to zinc air batteries performance, capacity, power density, average discharge voltage, resistance. And we also measured porosity of cathode by the ASTM. So we have got optimum contents of conducting agent.