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Two dimensional-material-coated microcantilevers for enhanced mass sensing and material characterization

Two dimensional-material-coated microcantilevers for enhanced mass sensing and material characterization
Two dimensional-material-coated microcantilevers for enhanced mass sensing and material characterization
The integration of 2D material coatings on microcantilevers marks a transformative advancement in nanomechanical sensing. As essential components of nanomechanical sensors, microcantilevers detect minute forces, such as molecular interactions, through frequency shift measurements, enabling ultra-sensitive detection with atomic-scale mass resolution. This work emphasizes the novelty of employing 2D-material coatings on microcantilevers, presenting an integrated approach that combines theoretical modeling, simulation, and experimentation. By utilizing 2D-material-coated microcantilevers, this study demonstrates the precise measurement of mass, Young’s modulus and thickness of 2D material layers. The enhanced performance of these coated resonators is showcased in applications such as bacterial and uric acid mass sensing at varying concentrations, achieving superior frequency detection, responsivity, and accuracy. This research not only advances nanoscale sensor design but also underscores the potential of 2D-material coatings in revolutionizing nanoelectromechanical sensors for materials characterization and mass spectrometry, paving the way for next-generation sensing technologies.
2040-3364
Bhattacharya, Gourav
24856681-38e5-4f02-96ff-e817a3435fbe
Lionadi, Indrianita
e4a4693c-7a5b-49ea-a430-098e8e9affc6
McMichael, Stuart
b7bcff8c-dfd3-409d-b8c2-c301733715c5
Taverne, Mike P.C.
6444e2cd-5d52-43a7-83b6-2e72f922501d
McLaughlign, James
c04a1983-f254-41dd-9a04-6f79b64f55c6
Fernandez-Ibanez, Pilar
d47e8f94-64c9-4c6b-8370-5d9f9559debc
Huang, Kevin Chung-Che
825f7447-6d02-48f6-b95a-fa33da71f106
Ho, Ying Lung Daniel
945e3431-b334-4d98-858f-c3fae452640f
Farokh Payam, Amir
b1b13efe-e636-4ecd-83bf-e43a8ad79652
Bhattacharya, Gourav
24856681-38e5-4f02-96ff-e817a3435fbe
Lionadi, Indrianita
e4a4693c-7a5b-49ea-a430-098e8e9affc6
McMichael, Stuart
b7bcff8c-dfd3-409d-b8c2-c301733715c5
Taverne, Mike P.C.
6444e2cd-5d52-43a7-83b6-2e72f922501d
McLaughlign, James
c04a1983-f254-41dd-9a04-6f79b64f55c6
Fernandez-Ibanez, Pilar
d47e8f94-64c9-4c6b-8370-5d9f9559debc
Huang, Kevin Chung-Che
825f7447-6d02-48f6-b95a-fa33da71f106
Ho, Ying Lung Daniel
945e3431-b334-4d98-858f-c3fae452640f
Farokh Payam, Amir
b1b13efe-e636-4ecd-83bf-e43a8ad79652

Bhattacharya, Gourav, Lionadi, Indrianita, McMichael, Stuart, Taverne, Mike P.C., McLaughlign, James, Fernandez-Ibanez, Pilar, Huang, Kevin Chung-Che, Ho, Ying Lung Daniel and Farokh Payam, Amir (2025) Two dimensional-material-coated microcantilevers for enhanced mass sensing and material characterization. Nanoscale. (doi:10.1039/D5NR03147H).

Record type: Article

Abstract

The integration of 2D material coatings on microcantilevers marks a transformative advancement in nanomechanical sensing. As essential components of nanomechanical sensors, microcantilevers detect minute forces, such as molecular interactions, through frequency shift measurements, enabling ultra-sensitive detection with atomic-scale mass resolution. This work emphasizes the novelty of employing 2D-material coatings on microcantilevers, presenting an integrated approach that combines theoretical modeling, simulation, and experimentation. By utilizing 2D-material-coated microcantilevers, this study demonstrates the precise measurement of mass, Young’s modulus and thickness of 2D material layers. The enhanced performance of these coated resonators is showcased in applications such as bacterial and uric acid mass sensing at varying concentrations, achieving superior frequency detection, responsivity, and accuracy. This research not only advances nanoscale sensor design but also underscores the potential of 2D-material coatings in revolutionizing nanoelectromechanical sensors for materials characterization and mass spectrometry, paving the way for next-generation sensing technologies.

Text
D5NR03147H_Nanoscale_two-Dimensional Materials coated Microcantilevers for Enhanced Mass Sensing and Material Characterization - Accepted Manuscript
Available under License Creative Commons Attribution.
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Accepted/In Press date: 29 September 2025
e-pub ahead of print date: 2 October 2025
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Identifiers

Local EPrints ID: 506582
URI: http://eprints.soton.ac.uk/id/eprint/506582
DOI: doi:10.1039/D5NR03147H
ISSN: 2040-3364
PURE UUID: 016a81f0-4e57-4d0e-9df5-dedb461334c9
ORCID for Kevin Chung-Che Huang: ORCID iD orcid.org/0000-0003-3471-2463

Catalogue record

Date deposited: 11 Nov 2025 17:57
Last modified: 12 Nov 2025 02:39

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Contributors

Author: Gourav Bhattacharya
Author: Indrianita Lionadi
Author: Stuart McMichael
Author: Mike P.C. Taverne
Author: James McLaughlign
Author: Pilar Fernandez-Ibanez
Author: Kevin Chung-Che Huang ORCID iD
Author: Ying Lung Daniel Ho
Author: Amir Farokh Payam

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