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One-dimensional Nanomaterials for Field Effect Transistor (FET) Type Biosensor Applications
Mingun Lee,김지영,Antonio Lucero 한국전기전자재료학회 2012 Transactions on Electrical and Electronic Material Vol.13 No.4
One-dimensional, nanomaterial field effect transistors (FET) are promising sensors for bio-molecule detection applications. In this paper, we review fabrication and characteristics of 1-D nanomaterial FET type biosensors. Materials such as single wall carbon nanotubes, Si nanowires, metal oxide nanowires and nanotubes, and conducting polymer nanowires have been widely investigated for biosensors, because of their high sensitivity to bio-substances,with some capable of detecting a single biomolecule. In particular, we focus on three important aspects of biosensors:alignment of nanomaterials for biosensors, surface modification of the nanostructures, and electrical detection mechanism of the 1-D nanomaterial sensors.
김혜진(Hyejin Kim),이민근(Mingun Lee),조규종(Kyuzong Cho) 한국자동차공학회 2006 한국자동차공학회 춘 추계 학술대회 논문집 Vol.- No.-
When we are thermoforming plastics, there is representatively many problems which are webbing or bridging, excessive post shrinkage, bubbles, distortion, after deformation. Among the rest, most important key point is make a thickness of the formation uniform, about solution it follows under and also the success and failure of formation decided. Consequently on this search, FEM analysis was used to improve the failure of uneven thickness which occurs most often in vacuum forming with ABS resin used widely in the home electronics. Through the rest of the investigations for existing forming method and the understanding of a problem point, improvement methods to minimize the failure was suggested it was approved to be successful considerably in existing by FEM analysis and test.