Add to ORKGWe present a light-scattering technique for the measurement of the microrheological properties of viscoelastic liquids in small volumes over a large frequency range (on the order of eight decades). The accuracy of the method for model viscoelastic liquids (polyethylene oxide solutions in water) is demonstrated by comparing the results with conventional mechanical measurements of the lass and storage moduli. Then we show that the method can be used to measure variations in viscoelastic properties in a heterogeneous system by measuring the variation in the moduli with position (and time) across a liquid/liquid interface between a viscoelastic polymer solution and a Newtonian liquid. (C) 2003 Elsevier Inc. All rights reserved
We present here a comparison between three rheological techniques to verify a recently developed opt...
We present a method to perform in situ microrheological measurements on monolayers of soft materials...
We present an experimental procedure to perform broadband microrheological measurements with optical...
We present a light-scattering technique for the measurement of the microrheological properties of vi...
We propose an optical technique, based on dynamic light scattering, for investigating the local rheo...
Experiments investigating the local viscoelastic properties of a simple uncross-linked flexible poly...
We present a comprehensive overview of microrheology, emphasizing the underlying theory, practical a...
Image correlation spectroscopy (ICS) has been mostly used to quantify spatiotemporal events in biolo...
The increasing interest in the mechanical properties of complex systems at mesoscopic scale has rece...
Microrheology is the study of the flow and deformation of fluids on the micrometre scale. It has man...
The field of microrheology is concerned with how materials store and dissipate mechanical energy as ...
We present a straightforward method for measuring the relative viscosity of fluids via a simple grap...
Microrheology is the study of the flow of materials over small scales. It is of particular interest ...
The design of an instrument capable of opto-mechanical studies of the rheology of viscoelastic polym...
We present here a comparison between three rheological techniques to verify a recently developed opt...
We present a method to perform in situ microrheological measurements on monolayers of soft materials...
We present an experimental procedure to perform broadband microrheological measurements with optical...
We present a light-scattering technique for the measurement of the microrheological properties of vi...
We propose an optical technique, based on dynamic light scattering, for investigating the local rheo...
Experiments investigating the local viscoelastic properties of a simple uncross-linked flexible poly...
We present a comprehensive overview of microrheology, emphasizing the underlying theory, practical a...
Image correlation spectroscopy (ICS) has been mostly used to quantify spatiotemporal events in biolo...
The increasing interest in the mechanical properties of complex systems at mesoscopic scale has rece...
Microrheology is the study of the flow and deformation of fluids on the micrometre scale. It has man...
The field of microrheology is concerned with how materials store and dissipate mechanical energy as ...
We present a straightforward method for measuring the relative viscosity of fluids via a simple grap...
Microrheology is the study of the flow of materials over small scales. It is of particular interest ...
The design of an instrument capable of opto-mechanical studies of the rheology of viscoelastic polym...
We present here a comparison between three rheological techniques to verify a recently developed opt...
We present a method to perform in situ microrheological measurements on monolayers of soft materials...
We present an experimental procedure to perform broadband microrheological measurements with optical...