Exploiting poly(dimethylsiloxane)-modified tips to evaluate frictional behavior by friction force microscopy

Jeong Ho Cho; Dae Ho Lee; Hwa Sung Shin; Sudip K. Pattanayek; Chang Y. Ryu; Kilwon Cho

doi:10.1021/la048409f

Exploiting poly(dimethylsiloxane)-modified tips to evaluate frictional behavior by friction force microscopy

Jeong Ho Cho, Dae Ho Lee, Hwa Sung Shin, Sudip K. Pattanayek, Chang Y. Ryu, Kilwon Cho

Department of Chemical and Biomolecular Engineering

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

9 Citations (Scopus)

Abstract

With the aim of investigating the effect of the surface properties on the friction behavior of self-assembled monolayers, we have modified tipless atomic force microscopy (AFM) cantilevers with a poly(dimethylsiloxane) (PDMS) lens. The friction coefficient using the silicon tip is strongly influenced by the mechanical properties of the substrate monolayer because hard, sharp silicon tips penetrate the surface of organic monolayers. However, the friction coefficient obtained for the PDMS-modified AFM cantilever is mostly due to the surface properties of the monolayer functional end group, rather than the viscoelastic deformation of the monolayer. The use of the PDMS tip was demonstrated as a novel means to investigate the effect of surface properties on the frictional behavior of self-assembled monolayers with various functional groups with less mechanical deformation.

Original language	English
Pages (from-to)	11499-11503
Number of pages	5
Journal	Langmuir
Volume	20
Issue number	26
DOIs	https://doi.org/10.1021/la048409f
Publication status	Published - 2004 Dec 21

All Science Journal Classification (ASJC) codes

Materials Science(all)
Condensed Matter Physics
Surfaces and Interfaces
Spectroscopy
Electrochemistry

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10.1021/la048409f

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title = "Exploiting poly(dimethylsiloxane)-modified tips to evaluate frictional behavior by friction force microscopy",

abstract = "With the aim of investigating the effect of the surface properties on the friction behavior of self-assembled monolayers, we have modified tipless atomic force microscopy (AFM) cantilevers with a poly(dimethylsiloxane) (PDMS) lens. The friction coefficient using the silicon tip is strongly influenced by the mechanical properties of the substrate monolayer because hard, sharp silicon tips penetrate the surface of organic monolayers. However, the friction coefficient obtained for the PDMS-modified AFM cantilever is mostly due to the surface properties of the monolayer functional end group, rather than the viscoelastic deformation of the monolayer. The use of the PDMS tip was demonstrated as a novel means to investigate the effect of surface properties on the frictional behavior of self-assembled monolayers with various functional groups with less mechanical deformation.",

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T1 - Exploiting poly(dimethylsiloxane)-modified tips to evaluate frictional behavior by friction force microscopy

AU - Cho, Jeong Ho

AU - Lee, Dae Ho

AU - Shin, Hwa Sung

AU - Pattanayek, Sudip K.

AU - Ryu, Chang Y.

AU - Cho, Kilwon

PY - 2004/12/21

Y1 - 2004/12/21

N2 - With the aim of investigating the effect of the surface properties on the friction behavior of self-assembled monolayers, we have modified tipless atomic force microscopy (AFM) cantilevers with a poly(dimethylsiloxane) (PDMS) lens. The friction coefficient using the silicon tip is strongly influenced by the mechanical properties of the substrate monolayer because hard, sharp silicon tips penetrate the surface of organic monolayers. However, the friction coefficient obtained for the PDMS-modified AFM cantilever is mostly due to the surface properties of the monolayer functional end group, rather than the viscoelastic deformation of the monolayer. The use of the PDMS tip was demonstrated as a novel means to investigate the effect of surface properties on the frictional behavior of self-assembled monolayers with various functional groups with less mechanical deformation.

AB - With the aim of investigating the effect of the surface properties on the friction behavior of self-assembled monolayers, we have modified tipless atomic force microscopy (AFM) cantilevers with a poly(dimethylsiloxane) (PDMS) lens. The friction coefficient using the silicon tip is strongly influenced by the mechanical properties of the substrate monolayer because hard, sharp silicon tips penetrate the surface of organic monolayers. However, the friction coefficient obtained for the PDMS-modified AFM cantilever is mostly due to the surface properties of the monolayer functional end group, rather than the viscoelastic deformation of the monolayer. The use of the PDMS tip was demonstrated as a novel means to investigate the effect of surface properties on the frictional behavior of self-assembled monolayers with various functional groups with less mechanical deformation.

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Exploiting poly(dimethylsiloxane)-modified tips to evaluate frictional behavior by friction force microscopy

Abstract

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