Atomic force microscopy lateral force calibration using a V-shape scratch made by a nanoindenter

Pierre Emmanuel Mazeran; Sebastian Jaramillo-Isaza; Risa Nurin Baiti; Anh Dung Nguyen; Karim El Kirat; Olivier Noël

doi:10.1063/5.0239444

Atomic force microscopy lateral force calibration using a V-shape scratch made by a nanoindenter

Pierre Emmanuel Mazeran, Sebastian Jaramillo-Isaza, Risa Nurin Baiti, Anh Dung Nguyen, Karim El Kirat, Olivier Noël

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

Abstract

Measuring quantitative and accurate friction force at the nanoscale by means of atomic force microscopy is not straightforward. Numerous lateral force calibration methods have been proposed in the last decades. The most popular one is the wedge method that requires a specific calibration sample having areas that present constant slope and friction coefficient. In this paper, we propose to revisit the wedge method by using an original, cheap, and easy-to-make standard, which consists of a V-shaped scratch made by a Berkovich nanoindenter tip on a fused silica substrate. We show that the scratch has two large opposite facets characterized by the same moderate and constant friction coefficient and slope. This allows simplification of the data processing and a much more reliable and accurate lateral force microscopy calibration.

Original language	English (US)
Article number	023704
Journal	Review of Scientific Instruments
Volume	96
Issue number	2
DOIs	https://doi.org/10.1063/5.0239444
State	Published - Feb 1 2025
Externally published	Yes

All Science Journal Classification (ASJC) codes

Instrumentation

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10.1063/5.0239444

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title = "Atomic force microscopy lateral force calibration using a V-shape scratch made by a nanoindenter",

abstract = "Measuring quantitative and accurate friction force at the nanoscale by means of atomic force microscopy is not straightforward. Numerous lateral force calibration methods have been proposed in the last decades. The most popular one is the wedge method that requires a specific calibration sample having areas that present constant slope and friction coefficient. In this paper, we propose to revisit the wedge method by using an original, cheap, and easy-to-make standard, which consists of a V-shaped scratch made by a Berkovich nanoindenter tip on a fused silica substrate. We show that the scratch has two large opposite facets characterized by the same moderate and constant friction coefficient and slope. This allows simplification of the data processing and a much more reliable and accurate lateral force microscopy calibration.",

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T1 - Atomic force microscopy lateral force calibration using a V-shape scratch made by a nanoindenter

AU - Mazeran, Pierre Emmanuel

AU - Jaramillo-Isaza, Sebastian

AU - Baiti, Risa Nurin

AU - Nguyen, Anh Dung

AU - El Kirat, Karim

AU - Noël, Olivier

PY - 2025/2/1

Y1 - 2025/2/1

N2 - Measuring quantitative and accurate friction force at the nanoscale by means of atomic force microscopy is not straightforward. Numerous lateral force calibration methods have been proposed in the last decades. The most popular one is the wedge method that requires a specific calibration sample having areas that present constant slope and friction coefficient. In this paper, we propose to revisit the wedge method by using an original, cheap, and easy-to-make standard, which consists of a V-shaped scratch made by a Berkovich nanoindenter tip on a fused silica substrate. We show that the scratch has two large opposite facets characterized by the same moderate and constant friction coefficient and slope. This allows simplification of the data processing and a much more reliable and accurate lateral force microscopy calibration.

AB - Measuring quantitative and accurate friction force at the nanoscale by means of atomic force microscopy is not straightforward. Numerous lateral force calibration methods have been proposed in the last decades. The most popular one is the wedge method that requires a specific calibration sample having areas that present constant slope and friction coefficient. In this paper, we propose to revisit the wedge method by using an original, cheap, and easy-to-make standard, which consists of a V-shaped scratch made by a Berkovich nanoindenter tip on a fused silica substrate. We show that the scratch has two large opposite facets characterized by the same moderate and constant friction coefficient and slope. This allows simplification of the data processing and a much more reliable and accurate lateral force microscopy calibration.

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Atomic force microscopy lateral force calibration using a V-shape scratch made by a nanoindenter

Abstract

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