Design of an optofluidic device for the measurement of the elastic modulus of deformable particles

Massimiliano M. Villone; Janine K. Nunes; Yankai Li; Howard A. Stone; Pier Luca Maffettone

doi:10.1117/12.2524901

21 June 2019 Design of an optofluidic device for the measurement of the elastic modulus of deformable particles

Massimiliano M. Villone, Janine K. Nunes, Yankai Li, Howard A. Stone, Pier Luca Maffettone

Proceedings Volume 11060, Optical Methods for Inspection, Characterization, and Imaging of Biomaterials IV; 110600L (2019) https://doi.org/10.1117/12.2524901
Event: SPIE Optical Metrology, 2019, Munich, Germany

Abstract

Suspensions carrying deformable inclusions are ubiquitous in nature and applications. Hence, high-throughput characterization of the mechanical properties of soft particles is of great interest. Recently, a non-invasive optofluidic technique has been developed for the measurement of the interfacial tension between two immiscible liquids.^{1, 2} We adapt such technique to the case of soft solid beads, thus designing a non-invasive optofluidic device for the measurement of the mechanical properties of deformable particles from real-time optical imaging of their deformation. The device consists of a cylindrical microfluidic channel with a cross-section reduction in which we make initially spherical soft beads flow suspended in a Newtonian carrier. By imaging the deformation of a particle in real time while it goes through the constriction, it is possible to get a measure of its elastic modulus through a theoretically derived-correlation. We provide both experimental and numerical validation of our device.

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Citation Download Citation

Massimiliano M. Villone, Janine K. Nunes, Yankai Li, Howard A. Stone, and Pier Luca Maffettone "Design of an optofluidic device for the measurement of the elastic modulus of deformable particles", Proc. SPIE 11060, Optical Methods for Inspection, Characterization, and Imaging of Biomaterials IV, 110600L (21 June 2019); https://doi.org/10.1117/12.2524901

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KEYWORDS

Particles

Liquids

Optofluidics

Microfluidics

Measurement devices

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