Crystallization kinetics of binary colloidal monolayers
Abstract
Experiments and simulations are used to study the kinetics of crystal growth in a mixture of magnetic and nonmagnetic particles suspended in ferrofluid. The growth process is quantified using both a bond order parameter and a mean domain size parameter. The largest single crystals obtained in experiments consist of approximately 1000 particles and form if the area fraction is held between 65-70% and the field strength is kept in the range of 8.5-10.5 Oe. Simulations indicate that much larger single crystals containing as many as 5000 particles can be obtained in impurity-free conditions within a few hours. If our simulations are modified to include impurity concentrations as small as 1-2%, then the results agree quantitatively with the experiments. These findings provide an important step toward developing strategies for growing single crystals that are large enough to enable follow-on investigations across many subdisciplines in condensed matter physics.
Cite
@article{arxiv.1605.05389,
title = {Crystallization kinetics of binary colloidal monolayers},
author = {An T. Pham and Ryohei Seto and Johannes Schonke and Daniel Y. Joh and Ashutosh Chilkoti and Eliot Fried and Benjamin B. Yellen},
journal= {arXiv preprint arXiv:1605.05389},
year = {2017}
}
Comments
10 pages, 11 figures