High-throughput measurement of elastic moduli of microfibers by rope coiling

Yuan Liu; Jack H. Y. Lo; Janine K. Nunes; Howard A. Stone; Ho Cheung Shum

doi:10.1073/pnas.2303679121

High-throughput measurement of elastic moduli of microfibers by rope coiling

Yuan Liu, Jack H. Y. Lo, Janine K. Nunes, Howard A. Stone^*, Ho Cheung Shum^*

^*Corresponding author for this work

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

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6 Downloads (CityUHK Scholars)

Abstract

There are many fields where it is of interest to measure the elastic moduli of tiny fragile fibers, such as filamentous bacteria, actin filaments, DNA, carbon nanotubes, and functional microfibers. The elastic modulus is typically deduced from a sophisticated tensile test under a microscope, but the throughput is low and limited by the time-consuming and skill-intensive sample loading/unloading. Here, we demonstrate a simple microfluidic method enabling the high-throughput measurement of the elastic moduli of microfibers by rope coiling using a localized compression, where sample loading/unloading are not needed between consecutive measurements. The rope coiling phenomenon occurs spontaneously when a microfiber flows from a small channel into a wide channel. The elastic modulus is determined by measuring either the buckling length or the coiling radius. The throughput of this method, currently 3,300 fibers per hour, is a thousand times higher than that of a tensile tester. We demonstrate the feasibility of the method by testing a nonuniform fiber with axially varying elastic modulus. We also demonstrate its capability for in situ inline measurement in a microfluidic production line. We envisage that high-throughput measurements may facilitate potential applications such as screening or sorting by mechanical properties and real-time control during production of microfibers. Copyright © 2024 the Author(s).

Original language	English
Article number	e2303679121
Journal	PNAS: Proceedings of the National Academy of Sciences of the United States of America
Volume	121
Issue number	12
Online published	13 Mar 2024
DOIs	https://doi.org/10.1073/pnas.2303679121
Publication status	Published - 19 Mar 2024
Externally published	Yes

Funding

This project is supported by the Research Grants Council of Hong Kong through the Research Impact Fund (No. R7072-18), with H.C.S. as the Project Coordinator and J.K.N and H.A.S. as co-Principal Investigators through a research collaboration agreement between the University of Hong Kong and Princeton University. We gratefully thank Alfonso H. W. Ngan and Lei Xu for their help with the experimental instruments. Y.L. and H.C.S. are funded in part by the Health@InnoHK programme from the Innovation and Technology Commission of the Hong Kong SAR government. H.C.S. is funded in part by the Croucher Senior Research Fellowship from Croucher Foundation.

Research Keywords

elastic rope coiling
high-throughput
mechanical properties
microfibers
microfluidics

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This full text is made available under CC-BY 4.0. https://creativecommons.org/licenses/by/4.0/

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abstract = "There are many fields where it is of interest to measure the elastic moduli of tiny fragile fibers, such as filamentous bacteria, actin filaments, DNA, carbon nanotubes, and functional microfibers. The elastic modulus is typically deduced from a sophisticated tensile test under a microscope, but the throughput is low and limited by the time-consuming and skill-intensive sample loading/unloading. Here, we demonstrate a simple microfluidic method enabling the high-throughput measurement of the elastic moduli of microfibers by rope coiling using a localized compression, where sample loading/unloading are not needed between consecutive measurements. The rope coiling phenomenon occurs spontaneously when a microfiber flows from a small channel into a wide channel. The elastic modulus is determined by measuring either the buckling length or the coiling radius. The throughput of this method, currently 3,300 fibers per hour, is a thousand times higher than that of a tensile tester. We demonstrate the feasibility of the method by testing a nonuniform fiber with axially varying elastic modulus. We also demonstrate its capability for in situ inline measurement in a microfluidic production line. We envisage that high-throughput measurements may facilitate potential applications such as screening or sorting by mechanical properties and real-time control during production of microfibers. Copyright {\textcopyright} 2024 the Author(s).",

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High-throughput measurement of elastic moduli of microfibers by rope coiling. / Liu, Yuan; Lo, Jack H. Y.; Nunes, Janine K. et al.
In: PNAS: Proceedings of the National Academy of Sciences of the United States of America, Vol. 121, No. 12, e2303679121, 19.03.2024.

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

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N2 - There are many fields where it is of interest to measure the elastic moduli of tiny fragile fibers, such as filamentous bacteria, actin filaments, DNA, carbon nanotubes, and functional microfibers. The elastic modulus is typically deduced from a sophisticated tensile test under a microscope, but the throughput is low and limited by the time-consuming and skill-intensive sample loading/unloading. Here, we demonstrate a simple microfluidic method enabling the high-throughput measurement of the elastic moduli of microfibers by rope coiling using a localized compression, where sample loading/unloading are not needed between consecutive measurements. The rope coiling phenomenon occurs spontaneously when a microfiber flows from a small channel into a wide channel. The elastic modulus is determined by measuring either the buckling length or the coiling radius. The throughput of this method, currently 3,300 fibers per hour, is a thousand times higher than that of a tensile tester. We demonstrate the feasibility of the method by testing a nonuniform fiber with axially varying elastic modulus. We also demonstrate its capability for in situ inline measurement in a microfluidic production line. We envisage that high-throughput measurements may facilitate potential applications such as screening or sorting by mechanical properties and real-time control during production of microfibers. Copyright © 2024 the Author(s).

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JO - PNAS: Proceedings of the National Academy of Sciences of the United States of America

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High-throughput measurement of elastic moduli of microfibers by rope coiling

Abstract

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Research Keywords

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