General route of nanowire field effect transistor

2010 3rd International Nanoelectronics Conference (INEC) Pub Date : 2010-03-04 DOI:10.1109/INEC.2010.5424980
T. Lee, W. Choi, Kyung-Ju Moon, Joohee Jeon, H. Baik, J. Myoung
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Abstract

An increasing number of technologies require large-scale integration of separately fabricated nano-objects into spatially organized, functional systems. Here we introduce an approach for dielectrophoresis and reserse transfer printing method. By doing these method we can easily get a nanowire bottom gate transistor with high performance. Firstly, nanowire bridge was formed simply by dielectrophoresis and then by reverse transferring of this bridge on the gate dielectric layer, a nanowire field effect transistor was fabricated. The on/off ratio, threshold voltage, field effect hole mobility, hole concentration and threshold swing of the transistor were measured by ∼6.6×106, −7.2V, 9.9cm2/V·s and ∼1.453×1016/cm−3, and 0.504V/decade.
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纳米线场效应晶体管的一般路线
越来越多的技术需要将单独制造的纳米物体大规模集成到有空间组织的功能系统中。本文介绍了一种介质电泳和储备转移印花的方法。通过这些方法,我们可以很容易地得到高性能的纳米线底栅晶体管。首先通过简单的介质电泳形成纳米线电桥,然后将纳米线电桥反向转移到栅极介电层上,制成纳米线场效应晶体管。通过~ 6.6×106、−7.2V、9.9cm2/V·s和~ 1.453×1016/cm−3、0.504V/decade测量晶体管的通/关比、阈值电压、场效应空穴迁移率、空穴浓度和阈值摆幅。
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2010 3rd International Nanoelectronics Conference (INEC)
2010 3rd International Nanoelectronics Conference (INEC)
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