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Improved deposition of large scale ordered nanosphere monolayers via liquid surface self-assembly

Improved deposition of large scale ordered nanosphere monolayers via liquid surface self-assembly
Improved deposition of large scale ordered nanosphere monolayers via liquid surface self-assembly
An improvement to the method of creating close-packed polystyrene nanosphere arrays on silicon via liquid surface self-assembly has been attained via modification of the deposition technique. This modification facilitates consistent and large area deposition of high quality close-packed polystyrene nanosphere monolayers on silicon substrates that was achieved in this work. This technique has the potential to be used for photonics applications such as creating low cost, large area antireflective surfaces in solar cells.
186-189
Stavroulakis, PI
2c1b0914-0d3c-4624-99cd-d6ebdb2c349e
Christou, N
a7fbda07-c9c0-457b-9e4b-ea9d1879e1b8
Bagnall, D
5d84abc8-77e5-43f7-97cb-e28533f25ef1
Stavroulakis, PI
2c1b0914-0d3c-4624-99cd-d6ebdb2c349e
Christou, N
a7fbda07-c9c0-457b-9e4b-ea9d1879e1b8
Bagnall, D
5d84abc8-77e5-43f7-97cb-e28533f25ef1

Stavroulakis, PI, Christou, N and Bagnall, D (2009) Improved deposition of large scale ordered nanosphere monolayers via liquid surface self-assembly. Materials Science and Engineering: B, 165, 186-189.

Record type: Article

Abstract

An improvement to the method of creating close-packed polystyrene nanosphere arrays on silicon via liquid surface self-assembly has been attained via modification of the deposition technique. This modification facilitates consistent and large area deposition of high quality close-packed polystyrene nanosphere monolayers on silicon substrates that was achieved in this work. This technique has the potential to be used for photonics applications such as creating low cost, large area antireflective surfaces in solar cells.

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More information

Published date: 2 September 2009
Additional Information: Imported from ISI Web of Science
Organisations: Nanoelectronics and Nanotechnology

Identifiers

Local EPrints ID: 270388
URI: http://eprints.soton.ac.uk/id/eprint/270388
PURE UUID: 19c42641-6e7b-412f-aed5-5ab06b9b281a

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Date deposited: 21 Apr 2010 07:46
Last modified: 14 Mar 2024 09:16

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Contributors

Author: PI Stavroulakis
Author: N Christou
Author: D Bagnall

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