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Near-surface microrheology reveals dynamics and viscoelasticity of soft matter

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Abstract

The development of experimental techniques able to probe the microscale viscoelastic properties of soft matter over a broad time scale is essential to uncover the physics that govern their behavior. Herein, we report the development of a microrheology technique that can determine the near-surface dynamics and viscoelastic behaviors of soft matter like polymer solution/gels and colloidal dispersions. Our approach combines a magnetic-field-induced stimulator with total internal reflection microscopy (TIRM) to apply mechanical loading (∼pN) to a micro-sized probe particle and capture its axial displacement near the surface with nano-scaled sensitivity. We demonstrate the use of this technique to measure the detachment of a colloid to a solid substrate and identify three quantitatively different regimes of mechanical coupling that differ in colloid–surface separation and interaction: exclusion, aging, and non-exclusion. We also apply it to study a physical gelation process of a volume-phase transition in thermosensitive microgels and a chemically cross-linked sol–gel transition of 4-arm star polymers by monitoring the evolution of complex modulus near solid surface with frequency, time, and separation distance. In contrast to passive microrheology techniques that rely on particle tracking, we can probe the viscoelastic behavior over five orders of magnitude in stiffness, from 10−3 to 102 Pa, providing excellent coverage for dynamics and heterogeneous samples. We expect this technique will stimulate the development of new experimental methods to explore the complex microscale rheology of macromolecular networks, soft materials, and living cytoplasm.

Graphical abstract: Near-surface microrheology reveals dynamics and viscoelasticity of soft matter

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Publication details

The article was received on 15 Sep 2018, accepted on 24 Oct 2018 and first published on 24 Oct 2018


Article type: Paper
DOI: 10.1039/C8SM01886C
Citation: Soft Matter, 2018, Advance Article
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    Near-surface microrheology reveals dynamics and viscoelasticity of soft matter

    W. Liu, X. Gong, T. Ngai and C. Wu, Soft Matter, 2018, Advance Article , DOI: 10.1039/C8SM01886C

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