Fabrication of conducting Si nanowire arrays

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[1] Beckman, R.A.
[2] Johnston-Halperin, E.
[3] 1,Melosh, N.A.
[4] Luo, Y.
[5] Green, J.E.
[6] Heath, J.R.
来源
Heath, J.R. (heath@caltech.edu) | 1600年 / American Institute of Physics Inc.卷 / 96期
关键词
Biosensors - Chemical sensors - CMOS integrated circuits - Fabrication - Field effect transistors - Gates (transistor) - Silicon - Silicon on insulator technology - Superlattices;
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摘要
The recent development of the superlattice nanowire pattern transfer technique allows for the fabrication of arrays of nanowires at a diameter, pitch, aspect ratio, and regularity beyond competing approaches. Here, we report the fabrication of conducting Si nanowire arrays with wire widths and pitches of 10-20 and 40-50 nm, respectively, and resistivity values comparable to the bulk through the selection of appropriate silicon-on-insulator substrates, careful reactive-ion etching, and spin-on glass doping. These results promise the realization of interesting nanoelectronic circuits and devices, including chemical and biological sensors, nanoscale mosaics for electronics, and ultradense field-effect transistor arrays. © 2004 American Institute of Physics.
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