Nanoscale lithography via electron beam induced deposition

We demonstrate the resolution and characteristics of a nanolithography process utilizing electron beam induced deposition (EBID) of W(CO)(6) and C(10)H(8) to define the imaging and masking layers. Lines and dot matrices were defined/written with various electron beam doses onto both polymethylmethac...

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Veröffentlicht in:	Nanotechnology 2008-12, Vol.19 (50), p.505302-505302 (6)
Hauptverfasser:	Guan, Yingfeng, Fowlkes, Jason D, Retterer, Scott T, Simpson, Michael L, Rack, Philip D
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container_end_page	505302 (6)
container_issue	50
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container_title	Nanotechnology
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creator	Guan, Yingfeng Fowlkes, Jason D Retterer, Scott T Simpson, Michael L Rack, Philip D
description	We demonstrate the resolution and characteristics of a nanolithography process utilizing electron beam induced deposition (EBID) of W(CO)(6) and C(10)H(8) to define the imaging and masking layers. Lines and dot matrices were defined/written with various electron beam doses onto both polymethylmethacrylate (PMMA) coated silicon substrates (PMMA-Si) and bare silicon substrates (Si). The selectivity of the W(CO)(x) for the PMMA dry development process (no measurable etching) and the silicon ( approximately 18:1) reactive ion etch was very good. C(10)H(8) directly patterned on Si also provided good selectivity for the silicon etch process, 21:1. The pattern transfer of the EBID material patterns into the silicon had high fidelity. The resolution scaled with exposure dose and was correlated with the EBID broadening/scattering via a Monte Carlo simulation. Using the bi-layer approach, imaging layers on PMMA-Si, a silicon nanowire resolution of 13.5 nm and linewidth of 24.5 nm are demonstrated. Furthermore, using the single-layer approach, EBID directly on Si, a silicon nanowire resolution of 33 nm is demonstrated.
doi_str_mv	10.1088/0957-4484/19/50/505302
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title	Nanoscale lithography via electron beam induced deposition
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