The effect of substrate roughness on the static friction of CuO nanowires

Boris Polyakov; Sergei Vlassov; Leonid M. Dorogin; Peteris Kulis; Ilmar Kink; Rynno Lohmus

doi:10.1016/j.susc.2012.04.029

The effect of substrate roughness on the static friction of CuO nanowires

Boris Polyakov^*
, Sergei Vlassov
, Leonid M. Dorogin
, Peteris Kulis
, Ilmar Kink
, Rynno Lohmus

^*Corresponding author for this work

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

30 Citations (Scopus)

Abstract

The dependence of static friction on surface roughness was measured for copper oxide nanowires on silicon wafers coated with amorphous silicon. The surface roughness of the substrate was varied to different extent by the chemical etching of the substrates. For friction measurements, the nanowires (NWs) were pushed by an atomic-force microscope (AFM) tip at one end of the NW until complete displacement of the NW was achieved. The elastic bending profile of a NW during this manipulation process was used to calculate the ultimate static friction force. A strong dependence of static friction on surface roughness was demonstrated. The real contact area and interfacial shear strength were estimated using a multiple elastic asperity model, which is based on the Derjaguin–Muller–Toporov (DMT) contact mechanics. The model included vertical elastic flexure of NW rested on high asperities due to van der Waals force.

Original language	English
Pages (from-to)	1393-1399
Journal	Surface science
Volume	606
Issue number	17-18
DOIs	https://doi.org/10.1016/j.susc.2012.04.029
Publication status	Published - 2012
Externally published	Yes

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title = "The effect of substrate roughness on the static friction of CuO nanowires",

abstract = "The dependence of static friction on surface roughness was measured for copper oxide nanowires on silicon wafers coated with amorphous silicon. The surface roughness of the substrate was varied to different extent by the chemical etching of the substrates. For friction measurements, the nanowires (NWs) were pushed by an atomic-force microscope (AFM) tip at one end of the NW until complete displacement of the NW was achieved. The elastic bending profile of a NW during this manipulation process was used to calculate the ultimate static friction force. A strong dependence of static friction on surface roughness was demonstrated. The real contact area and interfacial shear strength were estimated using a multiple elastic asperity model, which is based on the Derjaguin–Muller–Toporov (DMT) contact mechanics. The model included vertical elastic flexure of NW rested on high asperities due to van der Waals force.",

author = "Boris Polyakov and Sergei Vlassov and Dorogin, \{Leonid M.\} and Peteris Kulis and Ilmar Kink and Rynno Lohmus",

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language = "English",

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TY - JOUR

T1 - The effect of substrate roughness on the static friction of CuO nanowires

AU - Polyakov, Boris

AU - Vlassov, Sergei

AU - Dorogin, Leonid M.

AU - Kulis, Peteris

AU - Kink, Ilmar

AU - Lohmus, Rynno

PY - 2012

Y1 - 2012

N2 - The dependence of static friction on surface roughness was measured for copper oxide nanowires on silicon wafers coated with amorphous silicon. The surface roughness of the substrate was varied to different extent by the chemical etching of the substrates. For friction measurements, the nanowires (NWs) were pushed by an atomic-force microscope (AFM) tip at one end of the NW until complete displacement of the NW was achieved. The elastic bending profile of a NW during this manipulation process was used to calculate the ultimate static friction force. A strong dependence of static friction on surface roughness was demonstrated. The real contact area and interfacial shear strength were estimated using a multiple elastic asperity model, which is based on the Derjaguin–Muller–Toporov (DMT) contact mechanics. The model included vertical elastic flexure of NW rested on high asperities due to van der Waals force.

AB - The dependence of static friction on surface roughness was measured for copper oxide nanowires on silicon wafers coated with amorphous silicon. The surface roughness of the substrate was varied to different extent by the chemical etching of the substrates. For friction measurements, the nanowires (NWs) were pushed by an atomic-force microscope (AFM) tip at one end of the NW until complete displacement of the NW was achieved. The elastic bending profile of a NW during this manipulation process was used to calculate the ultimate static friction force. A strong dependence of static friction on surface roughness was demonstrated. The real contact area and interfacial shear strength were estimated using a multiple elastic asperity model, which is based on the Derjaguin–Muller–Toporov (DMT) contact mechanics. The model included vertical elastic flexure of NW rested on high asperities due to van der Waals force.

U2 - 10.1016/j.susc.2012.04.029

DO - 10.1016/j.susc.2012.04.029

M3 - Article

SN - 0039-6028

VL - 606

SP - 1393

EP - 1399

JO - Surface science

JF - Surface science

IS - 17-18

ER -

The effect of substrate roughness on the static friction of CuO nanowires

Abstract

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