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RESEARCH PRODUCT
Experimental determination of effective charges in aqueous suspensions of colloidal spheres
Patrick WetteHans Joachim SchöpeThomas Palbergsubject
Condensed Matter::Soft Condensed MatterShear modulusElectrophoresisColloidColloid and Surface ChemistryChemistryAnalytical chemistryThermodynamicsConductivityElasticity (economics)Bjerrum lengthPair potentialIondescription
Abstract We determined the low frequency conductivity σ , the phase behaviour and the shear modulus G of colloidal fluids, respectively solids prepared from deionised aqueous suspensions of highly charged spherical particles. Conductivity measures the number of freely moving small ions Z * σ and thus relates to the ion condensation process in the electric double layer under conditions of finite macro-ion concentrations. Phase behaviour and elasticity data are consistently described by a Debye–Huckel pair potential assuming pair-wise additive macro-ion interactions. Like Z * σ , also the effective charges Z * G derived from the elasticity data scales with the ratio of macro-ion radius to Bjerrum length. Z * G is, however, smaller than Z * σ . These findings are discussed in terms of recent experimental and theoretical results which suggest a reduction of the charge by both counter-ion condensation and many body terms in the effective particle interaction at finite concentration.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2003-07-01 | Colloids and Surfaces A: Physicochemical and Engineering Aspects |