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Fabrication of vertical nanopillar devices

✍ Scribed by M.A. Rafiq; H. Mizuta; Shigeyasu Uno; Z.A.K. Durrani

Book ID
104051697
Publisher
Elsevier Science
Year
2007
Tongue
English
Weight
320 KB
Volume
84
Category
Article
ISSN
0167-9317

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✦ Synopsis

Electron transport in silicon nanopillars has been investigated, with a view to developing vertical electron emission, electroluminescent and photoluminescent devices. Arrays of nanopillars were fabricated in highly-doped single crystal silicon and polysilcon materials. A 'natural lithography' technique utilising colloidal gold particles as an etch mask, in conjunction with standard microfabriction techniques, was used to fabricate the nanopillars in selected regions. The pillar height was 100 nm in single crystal silicon material and 40 nm in polysilicon material and the diameter of the pillars was 30 nm. A top contact was supported on a polyimide film, deposited by spin coating and curing, and then etching-back in oxygen plasma to expose the pillar tops. The current-voltage characteristics of these devices were measured at range of temperatures.

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✍ Tetsuya Tada; Vladimir V Poborchii; Toshihiko Kanayama πŸ“‚ Article πŸ“… 2002 πŸ› Elsevier Science 🌐 English βš– 499 KB

Two-dimensional photonic crystal (PC) slabs were fabricated by arranging Si nanopillars into square lattices with period of 490 nm. The fabrication process of nanopillars used iron clusters as nuclei for self-formation of etching masks to obtain high-aspect-ratio structures. The PC slabs were embedd