High-bandwidth viscoelastic properties of aging colloidal glasses and gels

We report measurements of the frequency-dependent shear moduli of aging colloidal systems that evolve from a purely low-viscosity liquid to a predominantly elastic glass or gel. Using microrheology, we measure the local complex shear modulus G;{*}(omega) over a very wide range of frequencies (from 1...

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Veröffentlicht in:	Physical review. E, Statistical, nonlinear, and soft matter physics Statistical, nonlinear, and soft matter physics, 2008-12, Vol.78 (6 Pt 1), p.061402-061402, Article 061402
Hauptverfasser:	Jabbari-Farouji, S, Atakhorrami, M, Mizuno, D, Eiser, E, Wegdam, G H, Mackintosh, F C, Bonn, Daniel, Schmidt, C F
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container_title	Physical review. E, Statistical, nonlinear, and soft matter physics
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creator	Jabbari-Farouji, S Atakhorrami, M Mizuno, D Eiser, E Wegdam, G H Mackintosh, F C Bonn, Daniel Schmidt, C F
description	We report measurements of the frequency-dependent shear moduli of aging colloidal systems that evolve from a purely low-viscosity liquid to a predominantly elastic glass or gel. Using microrheology, we measure the local complex shear modulus G;{*}(omega) over a very wide range of frequencies (from 1Hzto100kHz ). The combined use of one- and two-particle microrheology allows us to differentiate between colloidal glasses and gels-the glass is homogenous, whereas the colloidal gel shows a considerable degree of heterogeneity on length scales larger than 0.5microm . Despite this characteristic difference, both systems exhibit similar rheological behaviors which evolve in time with aging, showing a crossover from a single-power-law frequency dependence of the viscoelastic modulus to a sum of two power laws. The crossover occurs at a time t_{0} , which defines a mechanical transition point. We found that the data acquired during the aging of different samples can be collapsed onto a single master curve by scaling the aging time with t_{0} . This raises questions about the prior interpretation of two power laws in terms of a superposition of an elastic network embedded in a viscoelastic background.
doi_str_mv	10.1103/physreve.78.061402
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title	High-bandwidth viscoelastic properties of aging colloidal glasses and gels
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