Optical tweezer measurements of asymptotic nonlinearities in complex fluids

Author(s)

Gupta, Satish Kumar; Lennon, Kyle R.; Joens, Mary A.; Bandi, Hari; Van Galen, Martijn; Han, YuLong; Tang, Wenhui; Li, Yiwei; Wasserman, Steven Charles; Swan, James W.; Guo, Ming; ... Show more Show less

Abstract

This article presents micro-medium-amplitude oscillatory shear (μMAOS), a method to measure the frequency-dependent micromechanical properties of soft materials in the asymptotically nonlinear regime using optical tweezers. We have developed a theoretical framework to extract these nonlinear mechanical properties of the material from experimental measurements and also proposed a physical interpretation of the third-order nonlinearities measured in single-tone oscillatory tests. We validate the method using a well-characterized surfactant solution of wormlike micelles, and subsequently employ this technique to demonstrate that the cytoplasm of a living cell undergoes strain softening and shear thinning when locally subjected to weakly nonlinear oscillatory deformations.

Date issued

2021-12-07

URI

https://hdl.handle.net/1721.1/152897

Department

Massachusetts Institute of Technology. Department of Mechanical Engineering
Massachusetts Institute of Technology. Department of Chemical Engineering
Massachusetts Institute of Technology. Operations Research Center
Massachusetts Institute of Technology. Department of Biological Engineering

Journal

Physical Review E

Publisher

American Physical Society (APS)

Citation

Gupta, Satish Kumar, Lennon, Kyle R., Joens, Mary A., Bandi, Hari, Van Galen, Martijn et al. 2021. "Optical tweezer measurements of asymptotic nonlinearities in complex fluids." Physical Review E, 104 (6).

Version: Final published version

ISSN

2470-0045

2470-0053