Incongruous Harmonics of Vibrating Solid‐Solid Interface

Pardis Biglarbeigi; Alessio Morelli; Gourav Bhattacharya; Joanna Ward; Dewar Finlay; Nikhil Bhalla; Amir Farokh Payam

doi:10.1002/smll.202409410

Incongruous Harmonics of Vibrating Solid‐Solid Interface

Pardis Biglarbeigi, Alessio Morelli, Gourav Bhattacharya, Joanna Ward, Dewar Finlay, Nikhil Bhalla, Amir Farokh Payam

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Abstract

Deconvoluting the vibrations and harmonics in solid‐solid interfaces is crucial for designing materials with improved performance, durability, and functionality. The measured vibrating microcantilever signal in the dynamic atomic force microscopy (AFM) encompasses a multitude of distinct signatures reflecting a diverse array of material properties. Nevertheless, uncertainties persist in decoding these signatures, primarily arising from the interplay between attractive and repulsive forces. Consequently, it is challenging to correlate the generated harmonics within the solid‐solid interfaces with the imaged phase and topography of materials, as well as the occasional observed contrast reversal. In this study, the vibration harmonics produced at solid‐solid interfaces are correlated, linking them to short‐range nano‐mechanical characteristics through a comprehensive blend of theory, simulation, and experimental methods. These findings shed light on the roots of harmonic generation and contrast reversals, opening avenues for designing innovative materials with customized properties.

Original language	English
Article number	2409410
Pages (from-to)	1-12
Number of pages	12
Journal	Small
Early online date	17 Nov 2024
DOIs	https://doi.org/10.1002/smll.202409410
Publication status	Published online - 17 Nov 2024

Bibliographical note

Publisher Copyright:
© 2024 The Author(s). Small published by Wiley-VCH GmbH.

Data Access Statement

The data that support the findings of this study are available from the corresponding author upon reasonable request.

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1002/smll.202409410

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Cite this

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title = "Incongruous Harmonics of Vibrating Solid‐Solid Interface",

abstract = "Deconvoluting the vibrations and harmonics in solid‐solid interfaces is crucial for designing materials with improved performance, durability, and functionality. The measured vibrating microcantilever signal in the dynamic atomic force microscopy (AFM) encompasses a multitude of distinct signatures reflecting a diverse array of material properties. Nevertheless, uncertainties persist in decoding these signatures, primarily arising from the interplay between attractive and repulsive forces. Consequently, it is challenging to correlate the generated harmonics within the solid‐solid interfaces with the imaged phase and topography of materials, as well as the occasional observed contrast reversal. In this study, the vibration harmonics produced at solid‐solid interfaces are correlated, linking them to short‐range nano‐mechanical characteristics through a comprehensive blend of theory, simulation, and experimental methods. These findings shed light on the roots of harmonic generation and contrast reversals, opening avenues for designing innovative materials with customized properties.",

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AU - Biglarbeigi, Pardis

AU - Morelli, Alessio

AU - Bhattacharya, Gourav

AU - Ward, Joanna

AU - Finlay, Dewar

AU - Bhalla, Nikhil

AU - Payam, Amir Farokh

PY - 2024/11/17

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AB - Deconvoluting the vibrations and harmonics in solid‐solid interfaces is crucial for designing materials with improved performance, durability, and functionality. The measured vibrating microcantilever signal in the dynamic atomic force microscopy (AFM) encompasses a multitude of distinct signatures reflecting a diverse array of material properties. Nevertheless, uncertainties persist in decoding these signatures, primarily arising from the interplay between attractive and repulsive forces. Consequently, it is challenging to correlate the generated harmonics within the solid‐solid interfaces with the imaged phase and topography of materials, as well as the occasional observed contrast reversal. In this study, the vibration harmonics produced at solid‐solid interfaces are correlated, linking them to short‐range nano‐mechanical characteristics through a comprehensive blend of theory, simulation, and experimental methods. These findings shed light on the roots of harmonic generation and contrast reversals, opening avenues for designing innovative materials with customized properties.

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Incongruous Harmonics of Vibrating Solid‐Solid Interface

Abstract

Bibliographical note

Data Access Statement

UN SDGs

Access to Document

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