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이규정,김인식,남효진,박철,Lee, Kyu-Chung,Kim, In-Sik,Nam, Hyo-Jin,Park, Chul 대한전자공학회 1994 전자공학회논문지-A Vol.31 No.7
Low cost high efficiency single crystal silicon solar cells for terrestrial applications have been fabricated by using inexpensive materials such as solar grade silicon wafer and pastes, and mass production processes such as screen printing and spray. Under 100 mW/cm$^2$ (AM 1.5) and $25^{\circ}C$ conditions conversion efficiency of 16.48% was obtained by anon fire-thru process and 15.55% by fire-thru process.
$SnO_2$ 산화물 반도체의 비정상적 전류 - 전압 특성과 가스센서로의 응용
이규정,윤호군,허창우,Lee Kyu-chung,Yoon Ho-Kun,Hur Chang-Wu 한국정보통신학회 2004 한국정보통신학회논문지 Vol.8 No.7
산화물 반도체의 비정상적 전류-전압 특성을 조사하였고, 그 전류-전압 특성을 산화물 반도체 가스센서에 적용하여 히터없이 감지막의 자기발열 메커니즘에 의해 환원성 가스를 검지하는 새로운 방법을 제시하였다. 평면 구조의 후막 가스센서는 WO3가 도핑된 SnO2 산화물 반도체를 이용하여 스크린 프린팅 방법으로 제조하였다. 감지막에 공급된 전압은 감지막의 발열을 초래하고 이 센서에 가스가 노출될 경우, 가스 감지막 표면의 재 반응에 의하여 전류는 급격히 변화하고 이로써 가스를 검지 할 수 있게 되었다. 이 가스 검지 구조의 가장 특이하고 매력적인 면은 검지를 위해 모든 산화물 반도체 가스센서가 가지고 있어야 하는 히터가 필요 없다는 것이다. 이 새로운 감지 방법을 C2H5OH 가스검지에 적용시켜 보았다. Abnormal current-voltage characteristics of an oxide semiconductor have been investigated and a novel method of detecting reducing gases utilizing self-heating mechanism of sensing layer without an additional heater has been developed. Planar-type sensors based on WO3-doped SnO2 were fabricated using a screen-printing technique. The applied voltage across the sensing layer caused heating of the sensing layer and the current abruptly varied upon exposure to a gas mostly as a result of surface reactions. A unique and fascinating aspect of the gas sensing scheme is that no additional heater is necessary for detection. The new sensing method has been applied to C2H5OH gas in this preliminary work.
이규정,Lee Kyu-Jung Korea Society of Computational Fluids Engineering 1998 한국전산유체공학회지 Vol.3 No.1
A numerical analysis of thermal stress over temperature variations near the crystal-melt interface is carried out for a floating-zone growth of Cadmium Telluride (CdTe). Thermocapillary convection determines crystal-melt interfacial shape and signature of temperature in the crystal. Large temperature gradients near the crystal-melt interface yield excessive thermal stresses in a crystal, which affect the dislocations of the crystal. Based on the assumption that the crystal is elastic and isotropic, thermal stresses in a crystal are computed and the effects of operating conditions are investigated. The results show that the extreme thermal stresses are concentrated near the interface of a crystal and the radial and the tangential stresses are the dominant ones. Concentrated heating profile increases the stresses within the crystal, otherwise, the pulling rate decreases the stresses.