Your search keyword '"two-dimensional cluster"' showing total 2 results

1. Two-Dimensional Clusters of Colloidal Particles Induced by Emulsion Droplet Evaporation

Author

Hoang Luc-Huy, Linh Tran-Phan-Thuy, Hai Pham-Van, Cuong Tran-Manh, and Bich Do-Danh

Subjects

Range (particle radiation), Materials science, Mass distribution, colloidal molecule, droplet evaporation, General Chemical Engineering, Degenerate energy levels, Monte Carlo method, Evaporation, Second moment of area, 02 engineering and technology, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, Article, Pickering emulsion, 0104 chemical sciences, lcsh:Chemistry, pickering emulsion, lcsh:QD1-999, Chemical physics, two-dimensional cluster, Cluster (physics), General Materials Science, 0210 nano-technology

Abstract

The minimization principle of the second moment of the mass distribution ( M 2 ) is responsible for the unique structure of three-dimensional clusters by using emulsion droplet evaporation. Herein we study the structure of two-dimensional clusters of colloidal particles bound at the interface of liquid droplets in the plane. We found that, differently from the three-dimensional system, the two-dimensional clusters have multiple degenerate configurations (isomers). An interesting feature of such two-dimensional clusters is that they have the same packings as those belonging to a class of geometric figures known as polyiamonds. In particular, except for the six-particle cluster, many higher order clusters of polyiamond have not been reported previously. Using a simple geometrical approach, based on the number of ways to generate a packing, we calculated the occupation probabilities of distinct isomeric clusters. The level of agreement with the results of metropolis Monte Carlo simulations was good for clusters containing up to nine particles, suggesting that our two-dimensional cluster structures are not a result of the minimization of the second moment. In addition, the structure of these clusters is somewhat insensitive to the range and depth of the interparticle potential, in good agreement with the results in the literature.

Published

2020

2. Two-Dimensional Clusters of Colloidal Particles Induced by Emulsion Droplet Evaporation.

Author

Pham-Van, Hai, Tran-Phan-Thuy, Linh, Tran-Manh, Cuong, Do-Danh, Bich, and Luc-Huy, Hoang

Subjects

MONTE Carlo method, CLUSTERING of particles, COLLOIDAL crystals, DROPLETS, EMULSIONS, EMULSION polymerization, FOOD emulsions

Abstract

The minimization principle of the second moment of the mass distribution ( M 2 ) is responsible for the unique structure of three-dimensional clusters by using emulsion droplet evaporation. Herein we study the structure of two-dimensional clusters of colloidal particles bound at the interface of liquid droplets in the plane. We found that, differently from the three-dimensional system, the two-dimensional clusters have multiple degenerate configurations (isomers). An interesting feature of such two-dimensional clusters is that they have the same packings as those belonging to a class of geometric figures known as polyiamonds. In particular, except for the six-particle cluster, many higher order clusters of polyiamond have not been reported previously. Using a simple geometrical approach, based on the number of ways to generate a packing, we calculated the occupation probabilities of distinct isomeric clusters. The level of agreement with the results of metropolis Monte Carlo simulations was good for clusters containing up to nine particles, suggesting that our two-dimensional cluster structures are not a result of the minimization of the second moment. In addition, the structure of these clusters is somewhat insensitive to the range and depth of the interparticle potential, in good agreement with the results in the literature. [ABSTRACT FROM AUTHOR]

Published

2020