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Fe<sub>2</sub>O<sub>3</sub>후막을 이용한 alcohol sensor 제작 및 감응특성
이윤수,송갑득,이상문,심창현,최낙진,주병수,이덕동,허증수,Lee, Y.S.,Song, K.D.,Lee, S.M.,Shim, C.H.,Choi, N.J.,Joo, B.S.,Lee, D.D.,Huh, J.S. 한국센서학회 2002 센서학회지 Vol.11 No.2
저비용과 휴대성을 고려한 알코올 경보기의 제작을 위해 동작온도가 낮고 감도가 높은 반도체 가스 센서를 제작하였다. $Fe_2O_3$에 금속 산화물인 $MoO_3$, $V_2O_5$, $TiO_2$, 그리고 CdO 등을 첨가하여 스크린 프린팅법을 이용하여 센서를 제작하였다. 센서의 전기적 안정성을 위하여 질소 분위기에서 $700^{\circ}C$, 2시간 동안 열처리를 하였다. 알코올, 탄화수소계 가스와 담배연기 등을 사용하여 센서의 가스 감도를 조사하였다. $V_2O_5$를 첨가한 센서가 알코올 가스 1,000 ppm에 대해서 약 $80{\sim}90%$의 감도를 보이며, 타 가스에 대한 선택성도 가짐을 알 수 있었다. 제작된 센서와 PIC-chip을 사용하여 휴대 가능한 경보기를 제작할 수 있었다. In order to get low cost and portability, semiconductor gas sensor need to have low operating temperature and high sensitivity. $Fe_2O_3$ based sensors which were doped with metal oxide catalysts($MoO_3$, $V_2O_5$, $TiO_2$, and CdO) were fabricated by screen printing method. To improve electrical stability of sensors, the $Fe_2O_3$ sensors were annealed in $N_2$ at $700^{\circ}C$ for 2 hours. The $V_2O_5$ doped $Fe_2O_3$ sensor showed about $80{\sim}90%$ sensitivity at alcohol 1,000 ppm and have good selectivity to hydrocarbon gas and tobacco odors. The fabricated sensor and PIC-chip were employed for portable alarm system.
옥천대의 중생대 이래의 지구조적 운동에 관한 고지자기 연구
이윤수,민경덕,Lee, Youn Soo,Min, Kyung Duck 대한자원환경지질학회 1995 자원환경지질 Vol.28 No.5
Carboniferous and Cretaceous rock samples were collected from 3 and 12 sites respectively in the vicinity of the Okcheon Zone. Mean directions of characteristic component magnetizations from Carboniferous rocks along the Honam Shearzone reveal that the Okcheon zone was considerably rotated and deformed during Triassic. The amount of rotations were clockwisely $80.3^{\circ}$ in Mungyeong and $42.4^{\circ}$ in Hwasun areas. Mean directions of characteristic component magnetizations obtained from Cretaceous Yeongdong and Neungju Basin were identical to those from the Gyeongsang Basin in the Yeongnam Block indicating no relative motion between them since Cretaceous. Cretaceous paleopole position from 4 locations, $204.9^{\circ}E$ in longitude and $65.1^{\circ}N $ in latitude.
혼합효과가 DMA와 CPC를 이용한 입자분포 측정에 미치는 영향에 관한 연구
이윤수,안강호,김상수,Lee, Youn-Soo,Ahn, Kang-Ho,Kim, Sang-Soo 대한기계학회 2003 大韓機械學會論文集B Vol.27 No.3
In the measurement using DMA and CPC in series, there is some time delay for particles classified in DMA to detect in CPC. During this time, the DMA time-response changes due to the velocity profile of sampling tube and the diffusion of particles in the volume that exists between the DMA exit and the detector of ultra-fine CPC. This is called mixing effect. In the accelerated measurement methods like the TSI -SMPS, the size distribution is obtained from the correlation between the time-varying electrical potential of the DMA and the corresponding particle concentrations sampled in DMA. If the DMA time -response changes during this delay time, this can cause the error of a size distribution measured by this accelerated technique. The kernel function considering this mixing effect using the residence time distribution is proposed by Russell et al. In this study, we obtained a size distribution using this kernel to compare to the result obtained by the commercial accelerated measurement system, TSI -SMPS for verification and considered the errors that result from the mixing effect with the geometric mean diameters of originally sampled particles, using virtually calculated responses obtained with this kernel as input data.