Aligned silicon nanofins via the directed self-assembly of PS-b-P4VP block copolymer and metal oxide enhanced pattern transfer
Aligned silicon nanofins via the directed self-assembly of PS-b-P4VP block copolymer and metal oxide enhanced pattern transfer
'Directing' block copolymer (BCP) patterns is a possible option for future semiconductor device patterning, but pattern transfer of BCP masks is somewhat hindered by the inherently low etch contrast between blocks. Here, we demonstrate a 'fab' friendly methodology for forming well-registered and aligned silicon (Si) nanofins following pattern transfer of robust metal oxide nanowire masks through the directed self-assembly (DSA) of BCPs. A cylindrical forming poly(styrene)-block-poly(4-vinyl-pyridine) (PS-b-P4VP) BCP was employed producing 'fingerprint' line patterns over macroscopic areas following solvent vapor annealing treatment. The directed assembly of PS-b-P4VP line patterns was enabled by electron-beam lithographically defined hydrogen silsequioxane (HSQ) gratings. We developed metal oxide nanowire features using PS-b-P4VP structures which facilitated high quality pattern transfer to the underlying Si substrate. This work highlights the precision at which long range ordered ∼10 nm Si nanofin features with 32 nm pitch can be defined using a cylindrical BCP system for nanolithography application. The results show promise for future nanocircuitry fabrication to access sub-16 nm critical dimensions using cylindrical systems as surface interfaces are easier to tailor than lamellar systems. Additionally, the work helps to demonstrate the extension of these methods to a 'high χ' BCP beyond the size limitations of the more well-studied PS-b-poly(methyl methylacrylate) (PS-b-PMMA) system. This journal is
6712-6721
Cummins, Cian
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Gangnaik, Anushka
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Kelly, Roisin A.
8c78bd73-66c9-4ecb-9d14-d4f6eb008055
Borah, Dipu
2152450e-b34e-4c72-b06f-659e585a679b
O'Connell, John
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Petkov, Nikolay
4243e25a-7819-4fa7-afb4-30a86d8b96be
Georgiev, Yordan M.
75581277-0154-4144-8a94-36eaffeeef02
Holmes, Justin D.
6f16ad07-0c95-4eba-a71b-70dd149f5a9a
Morris, Michael A.
7c5bd3d2-1764-496e-b556-6b920a036096
21 April 2015
Cummins, Cian
e5296968-38f7-4cc8-8ddd-527af2b29faf
Gangnaik, Anushka
8b44e462-2a3f-4295-a9ff-1a2f7c09f14d
Kelly, Roisin A.
8c78bd73-66c9-4ecb-9d14-d4f6eb008055
Borah, Dipu
2152450e-b34e-4c72-b06f-659e585a679b
O'Connell, John
c6a08acd-7846-4b57-ad4b-16004c5f698d
Petkov, Nikolay
4243e25a-7819-4fa7-afb4-30a86d8b96be
Georgiev, Yordan M.
75581277-0154-4144-8a94-36eaffeeef02
Holmes, Justin D.
6f16ad07-0c95-4eba-a71b-70dd149f5a9a
Morris, Michael A.
7c5bd3d2-1764-496e-b556-6b920a036096
Cummins, Cian, Gangnaik, Anushka, Kelly, Roisin A., Borah, Dipu, O'Connell, John, Petkov, Nikolay, Georgiev, Yordan M., Holmes, Justin D. and Morris, Michael A.
(2015)
Aligned silicon nanofins via the directed self-assembly of PS-b-P4VP block copolymer and metal oxide enhanced pattern transfer.
Nanoscale, 7 (15), .
(doi:10.1039/c4nr07679f).
Abstract
'Directing' block copolymer (BCP) patterns is a possible option for future semiconductor device patterning, but pattern transfer of BCP masks is somewhat hindered by the inherently low etch contrast between blocks. Here, we demonstrate a 'fab' friendly methodology for forming well-registered and aligned silicon (Si) nanofins following pattern transfer of robust metal oxide nanowire masks through the directed self-assembly (DSA) of BCPs. A cylindrical forming poly(styrene)-block-poly(4-vinyl-pyridine) (PS-b-P4VP) BCP was employed producing 'fingerprint' line patterns over macroscopic areas following solvent vapor annealing treatment. The directed assembly of PS-b-P4VP line patterns was enabled by electron-beam lithographically defined hydrogen silsequioxane (HSQ) gratings. We developed metal oxide nanowire features using PS-b-P4VP structures which facilitated high quality pattern transfer to the underlying Si substrate. This work highlights the precision at which long range ordered ∼10 nm Si nanofin features with 32 nm pitch can be defined using a cylindrical BCP system for nanolithography application. The results show promise for future nanocircuitry fabrication to access sub-16 nm critical dimensions using cylindrical systems as surface interfaces are easier to tailor than lamellar systems. Additionally, the work helps to demonstrate the extension of these methods to a 'high χ' BCP beyond the size limitations of the more well-studied PS-b-poly(methyl methylacrylate) (PS-b-PMMA) system. This journal is
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Full text Cummins et al 2015
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Accepted/In Press date: 13 March 2015
e-pub ahead of print date: 16 March 2015
Published date: 21 April 2015
Identifiers
Local EPrints ID: 452976
URI: http://eprints.soton.ac.uk/id/eprint/452976
ISSN: 2040-3364
PURE UUID: 3bfcb5df-9314-45ad-a934-aa0388de466b
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Date deposited: 07 Jan 2022 12:07
Last modified: 16 Mar 2024 14:31
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Contributors
Author:
Cian Cummins
Author:
Anushka Gangnaik
Author:
Roisin A. Kelly
Author:
Dipu Borah
Author:
John O'Connell
Author:
Nikolay Petkov
Author:
Yordan M. Georgiev
Author:
Justin D. Holmes
Author:
Michael A. Morris
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