Self-Organization of Polymer Films Using Single and Mixed Solvents on Chemically Patterned Surfaces

Shohei Yasumatsu; Hirotaka Ishizuka; Koichi Nakaso; Patience Oluwatosin Babatunde; Jun Fukai

doi:10.1252/jcej.11we183

Self-Organization of Polymer Films Using Single and Mixed Solvents on Chemically Patterned Surfaces

Shohei Yasumatsu, Hirotaka Ishizuka, Koichi Nakaso, Patience Oluwatosin Babatunde, Jun Fukai

Product system engineering

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

2 Citations (Scopus)

Abstract

The breakup processes of polymer solution droplets deposited on chemically strip-patterned surfaces are investigated experimentally. Polystyrene is used as solute while various liquids are used as solvents. Breakup of the liquid film is found to progress by iterations of self-pinning on lyophilic channels and receding of the contact line on lyophobic channels. Accordingly, formation of the polymer thin film is incomplete when the contact lines are not pinned on the lyophilic channels, or when they are pinned on the lyophobic channels. To induce a Marangoni effect on breakup, binary solvent mixtures are used. For several mixtures, thin liquid films are elongated on the lyophilic channels, enhancing breakup. Such mixtures exhibit complete wetting on homogeneous lyophilic surfaces as a result of the Marangoni effect.

Original language	English
Pages (from-to)	265-271
Number of pages	7
Journal	JOURNAL OF CHEMICAL ENGINEERING OF JAPAN
Volume	45
Issue number	4
DOIs	https://doi.org/10.1252/jcej.11we183
Publication status	Published - 2012

All Science Journal Classification (ASJC) codes

Chemistry(all)
Chemical Engineering(all)

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10.1252/jcej.11we183

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abstract = "The breakup processes of polymer solution droplets deposited on chemically strip-patterned surfaces are investigated experimentally. Polystyrene is used as solute while various liquids are used as solvents. Breakup of the liquid film is found to progress by iterations of self-pinning on lyophilic channels and receding of the contact line on lyophobic channels. Accordingly, formation of the polymer thin film is incomplete when the contact lines are not pinned on the lyophilic channels, or when they are pinned on the lyophobic channels. To induce a Marangoni effect on breakup, binary solvent mixtures are used. For several mixtures, thin liquid films are elongated on the lyophilic channels, enhancing breakup. Such mixtures exhibit complete wetting on homogeneous lyophilic surfaces as a result of the Marangoni effect.",

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T1 - Self-Organization of Polymer Films Using Single and Mixed Solvents on Chemically Patterned Surfaces

AU - Yasumatsu, Shohei

AU - Ishizuka, Hirotaka

AU - Nakaso, Koichi

AU - Babatunde, Patience Oluwatosin

AU - Fukai, Jun

PY - 2012

Y1 - 2012

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AB - The breakup processes of polymer solution droplets deposited on chemically strip-patterned surfaces are investigated experimentally. Polystyrene is used as solute while various liquids are used as solvents. Breakup of the liquid film is found to progress by iterations of self-pinning on lyophilic channels and receding of the contact line on lyophobic channels. Accordingly, formation of the polymer thin film is incomplete when the contact lines are not pinned on the lyophilic channels, or when they are pinned on the lyophobic channels. To induce a Marangoni effect on breakup, binary solvent mixtures are used. For several mixtures, thin liquid films are elongated on the lyophilic channels, enhancing breakup. Such mixtures exhibit complete wetting on homogeneous lyophilic surfaces as a result of the Marangoni effect.

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Self-Organization of Polymer Films Using Single and Mixed Solvents on Chemically Patterned Surfaces

Abstract

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