Complexity of precipitation patterns: Comparison of simulation with experiment

1 December 1994

journal article
Published by AIP Publishing in Chaos: An Interdisciplinary Journal of Nonlinear Science

Vol. 4 (4) , 631-636
https://doi.org/10.1063/1.166040

Abstract

Numerical simulations show that a simple model for the formation of Liesegang precipitation patterns, which takes into account the dependence of nucleation and particle growth kinetics on supersaturation, can explain not only simple patterns like parallel bands in a test tube or concentric rings in a petri dish, but also more complex structural features, such as dislocations, helices, ‘‘Saturn rings,’’ or patterns formed in the case of equal initial concentrations of the source substances. The limits of application of the model are discussed.

Keywords

This publication has 24 references indexed in Scilit:

Bifurcation of the Ostwald-Liesegang supersaturation-nucleation-depletion cycle
Earth-Science Reviews, 1990
Bifurcation of the Ostwald-Liesegang supersaturation-nucleation-depletion cycle
Earth-Science Reviews, 1990
Measurements and a hypothesis on periodic precipitation processes
The Journal of Physical Chemistry, 1987
Patterns Produced by Precipitation at a Moving Reaction Front
Physical Review Letters, 1986
Redox front propagation and banding modalities
Physica D: Nonlinear Phenomena, 1986
Periodic precipitation patterns in the presence of concentration gradients. 2. Spatial bifurcation of precipitation bands and stochastic pattern formation
The Journal of Physical Chemistry, 1983
Periodic precipitation patterns in the presence of concentration gradients. 1. Dependence on ion product and concentration difference
The Journal of Physical Chemistry, 1982
Solute reaction mediated precipitate patterns in cross gradient free systems
Zeitschrift für Physik B Condensed Matter, 1982
Curiosities in Periodic Precipitation Patterns
Science, 1982
Mathematical analysis of the formation of periodic precipitations
Journal of Colloid Science, 1950