Quantifying Pathways and Friction of Nanoparticles During Controlled Manipulation by Contact-Mode Atomic Force Microscopy

被引:0
|
作者
D. Dietzel
M. Feldmann
C. Herding
U. D. Schwarz
A. Schirmeisen
机构
[1] Universität Münster,Physikalisches Institut
[2] Yale University,Department of Mechanical Engineering, Center for Research on Interface Structures and Phenomena (CRISP)
来源
Tribology Letters | 2010年 / 39卷
关键词
Nanotribology; AFM;
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学科分类号
摘要
Measuring interfacial friction during the manipulation of nanoparticles is becoming an increasingly important approach in nanotribology research. In this work, antimony and gold particles deposited on flat graphite surfaces have been translated by the tip of an atomic force microscope in contact mode along defined pathways. Two different manipulation techniques are discussed with respect to pathway control and friction quantification. The first technique includes pushing the particles from the side, which often results in a loss of the particle during translation due to unwanted sidewards motion. We analyze this phenomenon with an analytical model and find good agreement with experiments. An alternative approach is to move the particle while the tip remains on its top. We demonstrate that this approach allows better manipulation pathway control and that simultaneous interfacial friction measurements are in quantitative agreement with the first manipulation method.
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页码:273 / 281
页数:8
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