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A robust AFM-based method for locally measuring the elasticity of samples.


ABSTRACT: Investigation of the local sample elasticity is of high importance in many scientific domains. In 2014, Herruzo et al. published a new method based on frequency-modulation atomic force microscopy to locally determine the elasticity of samples (Nat. Commun.2014, 5, 3126). This method gives evidence for the linearity of the relation between the frequency shift of the cantilever first flexural mode ?f1 and the square of the frequency shift of the second flexural mode ?f22. In the present work, we showed that a similar linear relation exists when measuring in contact mode with a certain load FN and propose a new method for determining the elastic modulus of samples from this relation. The measurements were performed in non-dry air at ambient temperature on three different polymers (polystyrene, polypropylene and linear low-density polyethylene) and a self-assembled monolayer of 1H,1H,2H,2H-perfluorodecyltrichlorosilane (FDTS) on a silicon oxide substrate perforated with circular holes prepared by polymer blend lithography. For all samples the relation was evidenced by recording ?f1, ?f2 and FN as a function of the Z-displacement curves of the piezoelectric scanner. The occurence of a plastic deformation followed by an elastic deformation is shown and explained. The necessary load FN for measuring in the elastic domain was assessed for each sample, used for mapping the frequency shifts ?f1 and ?f2 and for determining the elastic modulus from ?f22/?f1. The method was used to give an estimate of the Young's modulus of the FDTS thin film.

SUBMITTER: Bubendorf A 

PROVIDER: S-EPMC5769082 | biostudies-other | 2018

REPOSITORIES: biostudies-other

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A robust AFM-based method for locally measuring the elasticity of samples.

Bubendorf Alexandre A   Walheim Stefan S   Schimmel Thomas T   Meyer Ernst E  

Beilstein journal of nanotechnology 20180102


Investigation of the local sample elasticity is of high importance in many scientific domains. In 2014, Herruzo et al. published a new method based on frequency-modulation atomic force microscopy to locally determine the elasticity of samples (<i>Nat. Commun.</i><b>2014</b>, <i>5,</i> 3126). This method gives evidence for the linearity of the relation between the frequency shift of the cantilever first flexural mode Δ<i>f</i><sub>1</sub> and the square of the frequency shift of the second flexur  ...[more]

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