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RESEARCH PRODUCT
Pattern Formation Kinetics for Charged Molecules on Surfaces: Microscopic Correlation Function Analysis
V. N. KuzovkovEugene A. KotominG. Zvejniekssubject
IonsModels MolecularOstwald ripeningChemistryKineticsMonte Carlo methodNon-equilibrium thermodynamicsPattern formationReverse Monte CarloSurfaces Coatings and FilmsKineticsCorrelation function (statistical mechanics)symbols.namesakeCrystallographyChemical physicsMaterials ChemistrysymbolsMoleculePhysical and Theoretical ChemistryMonte Carlo Methoddescription
The kinetics of pattern formation and phase separation in a system of two types of oppositely charged molecules with competing short- and long-range interactions on surfaces/interfaces is studied combining three methods: a microscopic formalism of the joint correlation functions, reverse Monte Carlo, and nonequilibrium charge-screening factors. The molecular ordering occurs on the background of the Ostwald ripening and thus is strongly nonequilibrium. We have demonstrated how initial random distribution of molecules is changed for loose similar-molecule aggregates, with further reorganization into dense macroscopic domains of oppositely charged molecules. Pattern formation process is characterized by the correlation length which monotonically increases in time.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2011-11-05 | The Journal of Physical Chemistry B |