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Philip Egberts

Showing results (1-10 of 20) with videos related to

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Small (Weinheim an Der Bergstrasse, Germany)|December 11, 2023
Triboelectrification and Unique Frictional Characteristics of Germanium-Based NanofilmsChaochen Xu, Philip Egberts
Beilstein Journal of Nanotechnology|November 12, 2025
Mechanical property measurements enabled by short-term Fourier-transform of atomic force microscopy thermal deflection analysisThomas Mathias, Roland Bennewitz, Philip Egberts
Beilstein Journal of Nanotechnology|July 30, 2019
Nanoscale spatial mapping of mechanical properties through dynamic atomic force microscopyZahra Abooalizadeh, Leszek Josef Sudak, Philip Egberts
The Journal of Physical Chemistry. A|March 30, 2011
Molecular order and disorder in the frictional response of alkanethiol self-assembled monolayersNitya Nand Gosvami, Philip Egberts, Roland Bennewitz
Nanotechnology|December 8, 2018
Mechanisms of friction reduction of nanoscale sliding contacts achieved through ultrasonic excitationHossein Jiryaei Sharahi, Philip Egberts, Seonghwan Kim
Nanotechnology|May 21, 2015
Molecular dynamics simulation of amplitude modulation atomic force microscopyXiaoli Hu, Philip Egberts, Yalin Dong, et al.
Nanotechnology|December 2, 2016
Tip convolution on HOPG surfaces measured in AM-AFM and interpreted using a combined experimental and simulation approachXiaoli Hu, Nicholas Chan, Ashlie Martini, et al.
Physical Review. E, Statistical, Nonlinear, and Soft Matter Physics|August 15, 2014
Reinterpretation of velocity-dependent atomic friction: influence of the inherent instrumental noise in friction force microscopesYalin Dong, Hongyu Gao, Ashlie Martini, et al.
Nanoscale Advances|September 22, 2022
Insights into dynamic sliding contacts from conductive atomic force microscopyNicholas Chan, Mohammad R Vazirisereshk, Ashlie Martini, et al.
Beilstein Journal of Nanotechnology|May 29, 2020
Quantitative determination of the interaction potential between two surfaces using frequency-modulated atomic force microscopyNicholas Chan, Carrie Lin, Tevis Jacobs, et al.
Pageof 2

Showing results (1-10 of 20) with videos related to

Sort By:
Pageof 2
Small (Weinheim an Der Bergstrasse, Germany)|December 11, 2023
Triboelectrification and Unique Frictional Characteristics of Germanium-Based NanofilmsChaochen Xu, Philip Egberts
Beilstein Journal of Nanotechnology|November 12, 2025
Mechanical property measurements enabled by short-term Fourier-transform of atomic force microscopy thermal deflection analysisThomas Mathias, Roland Bennewitz, Philip Egberts
Beilstein Journal of Nanotechnology|July 30, 2019
Nanoscale spatial mapping of mechanical properties through dynamic atomic force microscopyZahra Abooalizadeh, Leszek Josef Sudak, Philip Egberts
The Journal of Physical Chemistry. A|March 30, 2011
Molecular order and disorder in the frictional response of alkanethiol self-assembled monolayersNitya Nand Gosvami, Philip Egberts, Roland Bennewitz
Nanotechnology|December 8, 2018
Mechanisms of friction reduction of nanoscale sliding contacts achieved through ultrasonic excitationHossein Jiryaei Sharahi, Philip Egberts, Seonghwan Kim
Nanotechnology|May 21, 2015
Molecular dynamics simulation of amplitude modulation atomic force microscopyXiaoli Hu, Philip Egberts, Yalin Dong, et al.
Nanotechnology|December 2, 2016
Tip convolution on HOPG surfaces measured in AM-AFM and interpreted using a combined experimental and simulation approachXiaoli Hu, Nicholas Chan, Ashlie Martini, et al.
Physical Review. E, Statistical, Nonlinear, and Soft Matter Physics|August 15, 2014
Reinterpretation of velocity-dependent atomic friction: influence of the inherent instrumental noise in friction force microscopesYalin Dong, Hongyu Gao, Ashlie Martini, et al.
Nanoscale Advances|September 22, 2022
Insights into dynamic sliding contacts from conductive atomic force microscopyNicholas Chan, Mohammad R Vazirisereshk, Ashlie Martini, et al.
Beilstein Journal of Nanotechnology|May 29, 2020
Quantitative determination of the interaction potential between two surfaces using frequency-modulated atomic force microscopyNicholas Chan, Carrie Lin, Tevis Jacobs, et al.
Pageof 2