• 한국수소및신에너지학회논문집
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• 제20권6호
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• pp.485-491
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• 2009

In present work, NiO/YSZ anode functional layer was prepared by nano NiO powder and 8YSZ powder. The nano NiO powders were made by Pulsed wire evaporation (PWE) method. Nano NiO- YSZ functional layer was sintered at the temperature of $900-1400^{\circ}C$. The prepared functional layer was characterized by scanning electron microscopy (SEM) and electrochemical impedance spectroscopy. The nano NiO- YSZ anode functional layer sintered at $1300^{\circ}C$ shows the lowest polarization resistance. Nano NiO- YSZ anode functional layer shows about two times smaller polarization resistance than the anode functional layer made by commercial NiO-YSZ powders. Based on these experimental results, it is concluded that the nano NiO-YSZ cermet is suitable as a anode functional layer operated at $800^{\circ}C$.

• 전기화학회지
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• 제2권4호
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• pp.202-208
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• 1999

[ $50/50 vol\%$ ] LSM-YSZ의 양극은 콜로이드 증착법에 의해 YSZ 전해질상에 증착하였다. 양극 특성은 주사전자현미경과 임피던스 분석기에 의해 고찰하였다. LSM-YSZ양극의 제조 조건에 따른 영향을 관찰하였으며, 그 영향에 대한 개선책이 고체산화물 연료전지의 성능향상을 위해 제시되었다. 임피던스에 대한 온도, YSZ전해질로의 양극 접착에 대한 표면 오염, 사용하는 Pt 페이스트, 미세구조에 대한 곡표면에 가해진 연무질 분사기술과 셀과 셀의 변동성에 대한 영향들은 각각 $900^{\circ}C$ 측정, YSZ표면 연마, 일단의 Pt페이스트 사용, 평편한 YSZ판의 사용과 일관된 절차와 기술의 사용에 의해 해결되었다. 이때 재현성 있는 임피던스 스펙트럼들이 향상된 셀을 사용함으로써 얻어졌고, $900^{\circ}C$에서 (공기)LSM-YSZ/YSZ/LSM-YSZ(공기) 셀에 대해 측정된 전형적인 임피던스 스펙트럼들은 2개의 불완전한 호로 구성되었다. 또한 LSM-YSZ 양극의 임피던스 특성은 촉매층, 양극 조성, 인가 전류 등과 같은 실험 조건들에 의해서도 영향을 받았다.

• 한국세라믹학회지
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• 제36권8호
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• pp.791-798
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• 1999

다공성 NiO-YSZ 기판위에 전착법(EPD; Electrophoretic Deposition)법과 담금(Dip-coating)법에 의해 음극지지형 고체연료전지용 이트리아 안정화 지르코니아 박막 제조법을 연구하였다. 이를 위해 슬러리 농도 및 시간에 따른 박막의 무게, 박막의 결함 및 미세구조변화에 영향을 주는 제조조건들을 살펴 봄으로써 전착법과 담금법의 차이를 보았다. 담금법에서는 막생성 초기인 30초까지 막의 무게가 증가하지만 그 후에는 탈락이 일어나 시간을 증가하여도 막의 무게가 오히려 감소하였다. 전착법에서는 임계 인가전류 이상에서 시간에 따라 막의 무게가 증가하고 균일하고 치밀한 막이 형성하였다 전장이 매우 낮은 0.035 mA/$cm^2$ 의 정전류를 120초 이상 장시간 인가하면 막의 흘러내림(sagging)으로 인한 결함이 발생하였다. 전착법에 의해 균일하고도 치밀하게 가스 누출성이 없는 음극지지형 고체산화물 연료전지에 적합한 전해질 박막을 제조할 수 있었다.

• 한국세라믹학회지
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• 제48권5호
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• pp.439-446
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• 2011

Yttria stabilized zirconia (YSZ) coating was formed on AA1050 Al alloys by aerosol deposition (AD), and its electrochemical corrosion properties were investigated in 3.5 wt% NaCl and 0.5M $H_2SO_4$ solutions. The crack-free, dense, and ~5 ${\mu}m$ thick YSZ coating was successfully obtained by AD. The as-deposited coating was composed of cubic-YSZ nanocrystallites of ~10 nm size. The potentiodynamic test indicated that the YSZ coated Al alloy had much lower corrosion current densities (2 nA/$cm^2$) by comparison to uncoated sample and exhibited a passive behavior in anodic branch. Particularly, a pitting breakdown potential could not be identified in $H_2SO_4$. EIS tests revealed that the impedance of YSZ coated sample was ${\sim}10^6{\Omega}cm^2$ in NaCl and ${\sim}10^7{\Omega}cm^2$ in $H_2SO_4$, which was about 3 or 4 orders of magnitude higher than that of uncoated sample. Consequently, the corrosion resistance of Al alloy had been significantly enhanced by the YSZ coating.

• Restorative Dentistry and Endodontics
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• 제43권2호
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• pp.19.1-19.10
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• 2018

Objectives: This study investigated the effect of continuous application of 10-methacryloyloxydecyldihydrogen phosphate (MDP)-containing primer and luting resin cement on bond strength to tribochemical silica-coated yttria-stabilized tetragonal zirconia polycrystal (Y-TZP). Materials and Methods: Forty bovine teeth and Y-TZP specimens were prepared. The dentin specimens were embedded in molds, with one side of the dentin exposed for cementation with the zirconia specimen. The Y-TZP specimen was prepared in the form of a cylinder with a diameter of 3 mm and a height of 10 mm. The bonding surface of the Y-TZP specimen was sandblasted with silica-coated aluminium oxide particles. The forty tribochemical silica-coated Y-TZP specimens were cemented to the bovine dentin (4 groups; n = 10) with either an MDP-free primer or an MDP-containing primer and either an MDP-free resin cement or an MDP-containing resin cement. After a shear bond strength (SBS) test, the data were analyzed using 1-way analysis of variance and the Tukey test (${\alpha}=0.05$). Results: The group with MDP-free primer and resin cement showed significantly lower SBS values than the MDP-containing groups (p < 0.05). Among the MDP-containing groups, the group with MDP-containing primer and resin cement showed significantly higher SBS values than the other groups (p < 0.05). Conclusions: The combination of MDP-containing primer and luting cement following tribochemical silica coating to Y-TZP was the best choice among the alternatives tested in this study.

• 한국전기전자재료학회논문지
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• 제11권12호
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• pp.1099-1107
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• 1998

In this study, the microstructure and electric conductivity of 5mol% $Gd_2O_3$-5mol% $Y_2O_3-ZrO_2$ system(5G5YZ) with a variation of sintering time at $1600^{\circ}C$ were investigated. By the result of TEM analysis of 5G5YZ sintered for 12h, a microcrack was observed near grain boundary. The change of the sintering time did not affect the lattice conductivity, but the grain boundary contribution was varied with the sintering time. The grain boundary conductivity of the sample sintered for 1h showed the highest value. Furthermore, the activation energy of the total conductivity was independent upon the sintering time and showed approximately 1.01eV. The highest conductivity measured at $1000^{\circ}C$ was 0.0197S/cm with the sample sintered for 1h. Comparing to 0h’s, the thickness ration of grain boundary as a function of sintering time were 0.88, 1.11 and 1.29 for 1h, 5h and 12h, respectively. In case of the sample sintered for 1h, the thickness of the grain boundary showed the lowest value. The increase of the sintering time over 1h made the decrease of the electric conductivity as well as the increase of the grain growth and the thickness of the grain boundary. As a result, it seemed that the proper sintering time for 5G5YZ composition was 1h.

• 한국군사과학기술학회지
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• 제20권4호
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• pp.491-496
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• 2017

The hydrogen($H_2$) is promising energy carrier of renewable energy in the microgrid system such as small village and military base due to its high energy density, pure emission and convenient transportation. $H_2$ can be generated by photocatalytic water splitting, gasification of biomass and water electrolysis driven by solar cell or wind turbine. Solid oxide electrolysis cells(SOECs) are the most efficient way to mass production due to high operating temperature improving the electrode kinetics and reducing the electrolyte resistance. The SOECs are consist of nickel-yttria stabilized zirconia(NiO-YSZ) fuel electrode / YSZ electrolyte / lanthanum strontium manganite-YSZ(LSM-YSZ) air electrode due to similarity to Solid Oxide Fuel Cells(SOFCs). The Ni-YSZ most widely used fuel electrode shows several problems at SOEC mode such as degradation of the fuel electrode because of Ni particle's redox reaction and agglomeration. Therefore Ni-YSZ need to be replaced to an alternative fuel electrode material. In this study, We studied on the Double perovskite $PrBrMnO_{5+{\delta}}$(PBMO) due to its high electric conductivity, catalytic activity and electrochemical stability. PBMO was impregnated into the scaffold electrolyte $La_{0.8}Sr_{0.2}Ga_{0.85}Mg_{0.15}O_{3-{\delta}}$(LSGM) to be synthesized at low temperature for avoiding secondary phase generated when it exposed to high temperature. The Half cell test was conducted at SOECs and SOFCs modes.

• Restorative Dentistry and Endodontics
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• 제42권1호
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• pp.1-8
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• 2017

Objectives: The purpose of this study was to evaluate the effect of adhesive luting on the fracture resistance of zirconia compared to that of a composite resin and a lithium disilicate glass ceramic. Materials and Methods: The specimens (dimension: $2mm{\times}2mm{\times}25mm$) of the composite resin, lithium disilicate glass ceramic, and yttria-stabilized tetragonal zirconia polycrystal (Y-TZP) were prepared. These were then divided into nine groups: three non-luting groups, three non-adhesive luting groups, and three adhesive luting groups, for each restorative material. In the non-luting groups, specimens were placed on the bovine tooth without any luting agents. In the non-adhesive luting groups, only zinc phosphate cement was used for luting the specimen to the bovine tooth. In the adhesive luting groups, specimens were pretreated, and the adhesive luting procedure was performed using a self-adhesive resin cement. For all the groups, a flexural test was performed using universal testing machine, in which the fracture resistance was measured by recording the force at which the specimen was fractured. Results: The fracture resistance after adhesive luting increased by approximately 29% in the case of the composite resin, 26% in the case of the lithium disilicate glass ceramic, and only 2% in the case of Y-TZP as compared to non-adhesive luting. Conclusions: The fracture resistance of Y-TZP did not increased significantly after adhesive luting as compared to that of the composite resin and the lithium disilicate glass ceramic.

• 한국전기전자재료학회:학술대회논문집
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• 한국전기전자재료학회 2004년도 하계학술대회 논문집 Vol.5 No.1
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• pp.531-534
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• 2004

초전도 coated conductor는 보호층/초전도층/완충층/금속기판의 구조를 가지며 완충층은 다층산화물 박막으로 이루어져 있다. 본 연구에서는 니켈 기판의 원자가 초전도층으로 확산 침투하는 것을 방지하는 YSZ(Yttria Stabilized Zirconia) 박막의 증착방법 및 최적조건에 대하여 소개하고자 한다. 금속타겟을 사용하며 산화반응가스로서 수증기를 사용하는 것을 특징으로 하는 DC reactive sputtering을 이용하여 YSZ를 증착하였으며 기판 온도는 $850^{\circ}C$ 이며 증착시 수증기 분압은 1mTorr이었다. YSZ의 최적두께를 알아보기 위하여 $CeO_2(12.2nm)/Ni$ 상부에 130nm, 260nm, 390nm, 650nm로 두께를 달리하여 YSZ층을 증착하고 SEM으로 박막 표면상태를 관찰한 결과 columnar grain growth를 하며 두께가 두꺼워 질수록 표면조도가 증가함을 알 수 있었다. 4개의 각 시료위에 thermal evaporation 증착법을 이용하여 $CeO_2$를 18.3nm의 두께로 증착한 후 PLD를 이용하여 YBCO 초전도 박막을 300nm 두께로 증착하였고 77K, 0T에서 임계전류가 각각 0, 6A, 7.5A, 5A로 측정되었다. 이는 YSZ층의 두께가 두꺼워질수록 기판 구성원자의 확산방지역할을 충실히 하는 반면에 표면조도는 증가함을 알 수 있었다.

• 한국전기전자재료학회논문지
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• 제27권12호
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• pp.866-870
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• 2014

In solid oxide fuel cell system, yttria-stabilized zirconia is generally adopted as the electrolyte, which has high strength and superior oxygen ion conductivity, and the air electrode and the fuel electrode are attached to this. Recently, new structure of 'layered planar SOFC module' was suggested to solve the reliability problem due to the high temperature stability of a sealing agent and a binding material. In this study to materialize the air electrode in a layered planar SOFC module, the LSM ink was coated to form homogeneous electrode in the channel after the ink preparation. As the porosity control agent, PMMA or active carbon powder was adopted with use of a commercial dispersant in ethanol. The optimal amounts of both the porosity control agents and the dispersant were determined. Four (4) vol% of the dispersant for the LSM-PMMA case and 15 vol% for LSM-carbon powder showed the lowest viscosities respectively to indicate the best dispersed states of the slurries. With PMMA and carbon powder, sintered LSM ink shows the relatively homogeneous distributions of pores and with increases of the agents, the porosities increased in both cases. From this, it can be thought that the amount of the PMMA or carbon powder could be used to control the porosity of the LSM ink.