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"Planar type"

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"Planar type"

Regular Paper : Porosity Control in LSM Electrode Formation in Layered Plannar SOFC Module
Won Jun Lee, Dong Hun Yeo, Hyo Soon Shin, Dea Yong Jeong
J Electr Electron Mater 2014;27(12):866-870.   Published online December 1, 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 there liability 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 oractive 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.
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Energy Materials : Coating of LSM Ink in the Layered Planar Type SOFC
Sung Il Lee, Dong Hun Yeo, Hyo Soon Shin, Young Soo Yoon
J Electr Electron Mater 2012;25(7):552-557.   Published online July 1, 2012
In this study, we have coated the inner surface of YSZ channel using LSM powder ink through depressurization process for making the cathode of a stacked planar-type SOFC module. To coat the surface of YSZ channel uniformly, we tried to find the optimum manufacturing condition for LSM ink. We used four different dispersants (BYK series) and two different solvents (ethanol and DMF) to make the LSM ink. It was revealed that the ink made with the ethanol solvent and the BYK-111 dispersant has the lowest viscosity, relatively low contact angle and most excellent dispersibility. After depressurizing a chamber filled with LSM ink and sintered YSZ channel, we have found that the YSZ channel was uniformly coated with LSM cathode. The LSM ink with 25 vol% BYK-111 showed the most uniform coating.
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Characteristics of Catalytic Combustible Gas Sensor Based on Planar Technology
Yeong Bok Kim, Hyo Sub Noh, Jin Seong Park
J Electr Electron Mater 2008;21(9):812-817.   Published online September 1, 2008
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