Phase behaviour of colloids suspended in a near-critical solvent: A mean-field approach

Publication date

2015-09-17

Authors

Edison, J.R.ISNI 0000000436401412
Belli, SimoneISNI 0000000419520639
Evans, R.
van Roij, RenéISNI 0000000392993654
Dijkstra, M.ISNI 0000000358257928

Editors

Advisors

Supervisors

Document Type

Article
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License

taverne

Abstract

Colloids suspended in a binary solvent may, under suitable thermodynamic conditions, experience a wide variety of solvent-mediated interactions that can lead to colloidal phase transitions and aggregation phenomena. We present a simple mean-field theory, based on free-volume arguments, that describes the phase behaviour of colloids suspended in a near-critical binary solvent. The theory predicts rich phase behaviour: we find colloidal gas, liquid and crystal phases, a colloidal gas-liquid critical line and a colloidal solid-solid critical line. We compare our results with those of our recent simulation study of the same model in two dimensions. Our simple theory accounts for the main features of the phase diagrams found in simulations and sheds new light on the origin of colloidal aggregation lines in near-critical solvents.

Keywords

Taverne, Physical and Theoretical Chemistry, Condensed Matter Physics, Biophysics, Molecular Biology

Citation

Edison, J R, Belli, S, Evans, R, Van Roij, R & Dijkstra, M 2015, 'Phase behaviour of colloids suspended in a near-critical solvent : A mean-field approach', Molecular Physics, vol. 113, no. 17-18, pp. 2546-2555. https://doi.org/10.1080/00268976.2015.1031842