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Development of Two-layer Electrode for Direct Methanol Fuel Cell
정두환,홍성화,백동현,송락현,신동열,김혁년,Jung, Doo-Hwan,Hong, Seong-Hwa,Peck, Dong-Hyun,Song, Rak-Hyun,Shin, Dong-Ryul,Kim, Hyuk-Nyun The Korean Electrochemical Society 2003 한국전기화학회지 Vol.6 No.1
The performance of the Direct Methanol Fuel Cell (DMFC) using multi-layer electrode, which prepared by various anode catalysts and Nafion membranes, was studied for reducing the amount of the metal catalyst loaded in the MEA system. The amount of the catalyst used in this experiment was $3-4 mg/cm^2$ in cathode and $1-2 mg/cm^2$ in anode, respectively. The best performance was to be $230 mS/cm^2$ of MEA3 at $90^{\circ}C$ and 2 bar in this experiment. However, the overall performance of the DMFC was maintained almost the same compared to the general commercial catalyst systems. 전지 성능을 저하시키지 않고 연료극 및 공기극의 귀금속 촉매량을 줄이기 위하여 다층막 전극을 이용한 직접메탄을 연료전지의 성능특성을 조사하였다. 다층막 전극 즉, 연료극과 공기극에 사용된 촉매사용량과 나피온 막의 종류를 변화시키며 최종성능을 측정하였다 본 실험에서 사용된 촉매량은 연료극이 $3-4mg/cm^2$ 공기극이 $1-2mg/cm^2$이다. 본 실험에서는 나피온 115를 사용한 MEA3의 $90^{\circ}C$, 2기압에서 측정 결과 최대 전력밀도인 $230mW/cm^2$를 나타내었다. 이 결과는 현재 시판되고 있는 상용전극과 거의 같은 수준의 성능을 보여주고 있는 반면, 금속 촉매의 양은 기존의 상용전극과 비교하여 약 $50\%$ 정도 감소된 것이다.
정두환,이영석,이보성 ( Doo Hwan Jung,Young Seak Lee,Bo Sung Rhee ) 한국화학공학회 1991 Korean Chemical Engineering Research(HWAHAK KONGHA Vol.29 No.1
This study was performed to investigate the properties of mesophase pitch based carbon fibers during stabilization. The stabilization of those was carried out in the range of 230, 280, 320℃ under atmospheric condition for 0-3 hours. The characteristics of the reactions were observed by chemical and optical analysis. The condition of stabilization was determined by testing the mechanical properties of carbonized fibers. The stabilization of mesophase pitch based carbon fibers was progressed with permeating oxygens to fibers, escaping hydrogens and carbons from those. The skin-core structure, a random and mosaic structure is progressed by oxidant from the surface of stabilized fibers to the center of those, was confirmed by using the polarized micrograph. The cross-sectional structure of carbonized fibers was controlled by the structure of stabilized fibers. The mechanical properties of carbonized fibers were determined using the stabilization time, temperature and the introduced oxygen contents. The tensile strength and Young`s modulus of carbonized fibers stabilized at 320℃ for 1 hour with 8.9wt% of oxygen contents were founded to be superier to others.