Computer simulations of atomic force microscopy: crystalline polymers and the effects of surface contaminants

Bobby G. Sumpter; Coral Getino; Donald W. Noid; Bernhard Wunderlich

doi:10.1002/mats.1993.040020105

Computer simulations of atomic force microscopy: crystalline polymers and the effects of surface contaminants

Bobby G. Sumpter, Coral Getino, Donald W. Noid, Bernhard Wunderlich

Center for Nanophase Matls Sciences

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

5 Scopus citations

Abstract

The atomistic dynamics of the interaction of an atomic force microscopic (AFM) probe with a crystalline polyethylene surface was examined by using the molecular dynamics method. The results show that the internal dynamics of the polymer crystal is such that rapid relaxation occurs, providing for a large amount of structural reversibility and making it possible to perform nondestructive AFM experiments. However, surface and/or AFM tip defects or contaminants (such as those which can be induced by polar molecules adsorbed on the surface), can result in significant perturbations in the AFM images produced, causing large and sharp structures to appear on the surface topology. A rationale of the mechanisms responsible for the image distortions is presented, and a relationship to defects observed in AFM and STM experiments is given.

Original language	English
Pages (from-to)	55-76
Number of pages	22
Journal	Macromolecular Theory and Simulations
Volume	2
Issue number	1
DOIs	https://doi.org/10.1002/mats.1993.040020105
State	Published - Jan 1993

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abstract = "The atomistic dynamics of the interaction of an atomic force microscopic (AFM) probe with a crystalline polyethylene surface was examined by using the molecular dynamics method. The results show that the internal dynamics of the polymer crystal is such that rapid relaxation occurs, providing for a large amount of structural reversibility and making it possible to perform nondestructive AFM experiments. However, surface and/or AFM tip defects or contaminants (such as those which can be induced by polar molecules adsorbed on the surface), can result in significant perturbations in the AFM images produced, causing large and sharp structures to appear on the surface topology. A rationale of the mechanisms responsible for the image distortions is presented, and a relationship to defects observed in AFM and STM experiments is given.",

author = "Sumpter, \{Bobby G.\} and Coral Getino and Noid, \{Donald W.\} and Bernhard Wunderlich",

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AU - Sumpter, Bobby G.

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AU - Noid, Donald W.

AU - Wunderlich, Bernhard

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Y1 - 1993/1

N2 - The atomistic dynamics of the interaction of an atomic force microscopic (AFM) probe with a crystalline polyethylene surface was examined by using the molecular dynamics method. The results show that the internal dynamics of the polymer crystal is such that rapid relaxation occurs, providing for a large amount of structural reversibility and making it possible to perform nondestructive AFM experiments. However, surface and/or AFM tip defects or contaminants (such as those which can be induced by polar molecules adsorbed on the surface), can result in significant perturbations in the AFM images produced, causing large and sharp structures to appear on the surface topology. A rationale of the mechanisms responsible for the image distortions is presented, and a relationship to defects observed in AFM and STM experiments is given.

AB - The atomistic dynamics of the interaction of an atomic force microscopic (AFM) probe with a crystalline polyethylene surface was examined by using the molecular dynamics method. The results show that the internal dynamics of the polymer crystal is such that rapid relaxation occurs, providing for a large amount of structural reversibility and making it possible to perform nondestructive AFM experiments. However, surface and/or AFM tip defects or contaminants (such as those which can be induced by polar molecules adsorbed on the surface), can result in significant perturbations in the AFM images produced, causing large and sharp structures to appear on the surface topology. A rationale of the mechanisms responsible for the image distortions is presented, and a relationship to defects observed in AFM and STM experiments is given.

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DO - 10.1002/mats.1993.040020105

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JO - Macromolecular Theory and Simulations

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IS - 1

ER -

Computer simulations of atomic force microscopy: crystalline polymers and the effects of surface contaminants

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