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Revised state diagram of Laponite dispersions.

Philippe Mongondry, Jean François Tassin, Taco Nicolai

Polymères Colloïdes Interfaces, UMR CNRS 6120, Université du Maine, 72085 Le Mans Cedex 9, France.

Journal Article: Journal of Colloid and Interface Science (impact factor: 3.02). 04/2005; 283(2):397-405. DOI: 10.1016/j.jcis.2004.09.043

Abstract

We propose a state diagram of charged disk-like mineral particle (Laponite) dispersions as a function of the Laponite concentration (C) and the concentration of added salt (C(s)), based on simple observation and light-scattering measurements. At low C or high C(s) the dispersions separate into two domains due to sedimentation of Laponite aggregates, while at high C and low C(s) they form homogeneous gels that do not flow upon tube reversal. The aggregation rate and the structure factor of the Laponite dispersions is determined with light scattering as a function of C and C(s). We discuss in detail the controversy on the origin of gelation of Laponite dispersions in the absence of added salt. We argue that aggregation rather than glass formation causes gelation.

Source: PubMed

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Keywords

aggregation
 
aggregation rate
 
disk-like mineral particle
 
dispersions separate
 
domains
 
Laponite aggregates
 
Laponite concentration
 
Laponite dispersions
 
light-scattering measurements
 
state diagram
 
structure factor
 
tube reversal