Room-temperature nanoimprint lithography for crystalline poly(fluoroalkyl acrylate) thin films

Koji Honda; Masamichi Morita; Hiroyasu Masunaga; Sono Sasaki; Masaki Takata; Atsushi Takahara

doi:10.1039/b918316g

Room-temperature nanoimprint lithography for crystalline poly(fluoroalkyl acrylate) thin films

Koji Honda, Masamichi Morita, Hiroyasu Masunaga, Sono Sasaki, Masaki Takata, Atsushi Takahara

Department of Applied Molecular Chemistry

Research output: Contribution to journal › Article › peer-review

31 Citations (Scopus)

Abstract

A mold with a line pattern was imprinted onto a thin film of poly{2-(perfluorooctyl)ethyl acrylate} with long crystalline fluoroalkyl groups (PFA-C₈), and the nanoimprinting characteristics of PFA-C₈ thin films were investigated. It was revealed that nanostructures could be imprinted on PFA-C₈ at room temperature because of the weak interaction among the fluoroalkyl groups in crystallites. The nanotextured PFA-C₈ film with a line pattern exhibited anisotropic wetting behavior. The anisotropic wetting behavior was attributed to the difference between the energy barriers of wetting in the direction parallel and orthogonal to the lines. Fabricated nanostructures were stable for annealing below its melting point and were stable at room temperature (RT) for several months.

Original language	English
Pages (from-to)	870-875
Number of pages	6
Journal	Soft Matter
Volume	6
Issue number	5
DOIs	https://doi.org/10.1039/b918316g
Publication status	Published - Mar 1 2010

All Science Journal Classification (ASJC) codes

Chemistry(all)
Condensed Matter Physics

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abstract = "A mold with a line pattern was imprinted onto a thin film of poly{2-(perfluorooctyl)ethyl acrylate} with long crystalline fluoroalkyl groups (PFA-C8), and the nanoimprinting characteristics of PFA-C8 thin films were investigated. It was revealed that nanostructures could be imprinted on PFA-C8 at room temperature because of the weak interaction among the fluoroalkyl groups in crystallites. The nanotextured PFA-C8 film with a line pattern exhibited anisotropic wetting behavior. The anisotropic wetting behavior was attributed to the difference between the energy barriers of wetting in the direction parallel and orthogonal to the lines. Fabricated nanostructures were stable for annealing below its melting point and were stable at room temperature (RT) for several months.",

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AU - Honda, Koji

AU - Morita, Masamichi

AU - Masunaga, Hiroyasu

AU - Sasaki, Sono

AU - Takata, Masaki

AU - Takahara, Atsushi

PY - 2010/3/1

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N2 - A mold with a line pattern was imprinted onto a thin film of poly{2-(perfluorooctyl)ethyl acrylate} with long crystalline fluoroalkyl groups (PFA-C8), and the nanoimprinting characteristics of PFA-C8 thin films were investigated. It was revealed that nanostructures could be imprinted on PFA-C8 at room temperature because of the weak interaction among the fluoroalkyl groups in crystallites. The nanotextured PFA-C8 film with a line pattern exhibited anisotropic wetting behavior. The anisotropic wetting behavior was attributed to the difference between the energy barriers of wetting in the direction parallel and orthogonal to the lines. Fabricated nanostructures were stable for annealing below its melting point and were stable at room temperature (RT) for several months.

AB - A mold with a line pattern was imprinted onto a thin film of poly{2-(perfluorooctyl)ethyl acrylate} with long crystalline fluoroalkyl groups (PFA-C8), and the nanoimprinting characteristics of PFA-C8 thin films were investigated. It was revealed that nanostructures could be imprinted on PFA-C8 at room temperature because of the weak interaction among the fluoroalkyl groups in crystallites. The nanotextured PFA-C8 film with a line pattern exhibited anisotropic wetting behavior. The anisotropic wetting behavior was attributed to the difference between the energy barriers of wetting in the direction parallel and orthogonal to the lines. Fabricated nanostructures were stable for annealing below its melting point and were stable at room temperature (RT) for several months.

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Room-temperature nanoimprint lithography for crystalline poly(fluoroalkyl acrylate) thin films

Abstract

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