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Optical Characterization of Large Icosahedral Colloidal Clusters

Optical Characterization of Large Icosahedral Colloidal Clusters Colloidal particles form a face‐centered‐cubic (FCC) lattice on crystallization; however, recent studies have indicated that the cluster with the icosahedral symmetry can be formed under spherical confinement. The icosahedral cluster appears only when the number of constituent particles is small because the FCC lattice is favored thermodynamically for a bulk colloidal crystal. This paper reports the observation of a large icosahedral colloidal cluster comprising ≈4.9 × 105 colloidal particles, which is considerably larger than the previously reported number. This large icosahedral cluster clearly exhibits the triangular reflection pattern that corresponds to one face of the icosahedron. Further, an oblique illumination with sample rotation is found to be an effective method to characterize the icosahedral cluster optically. In this study, larger colloidal particles are used than those in previous studies. It is hypothesized that slow reconfiguration during the evaporation process can result in the formation of a large icosahedral cluster due to the large particle size. http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png Particle & Particle Systems Characterization Wiley

Optical Characterization of Large Icosahedral Colloidal Clusters

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References (36)

Publisher
Wiley
Copyright
© 2022 Wiley‐VCH GmbH
ISSN
0934-0866
eISSN
1521-4117
DOI
10.1002/ppsc.202100257
Publisher site
See Article on Publisher Site

Abstract

Colloidal particles form a face‐centered‐cubic (FCC) lattice on crystallization; however, recent studies have indicated that the cluster with the icosahedral symmetry can be formed under spherical confinement. The icosahedral cluster appears only when the number of constituent particles is small because the FCC lattice is favored thermodynamically for a bulk colloidal crystal. This paper reports the observation of a large icosahedral colloidal cluster comprising ≈4.9 × 105 colloidal particles, which is considerably larger than the previously reported number. This large icosahedral cluster clearly exhibits the triangular reflection pattern that corresponds to one face of the icosahedron. Further, an oblique illumination with sample rotation is found to be an effective method to characterize the icosahedral cluster optically. In this study, larger colloidal particles are used than those in previous studies. It is hypothesized that slow reconfiguration during the evaporation process can result in the formation of a large icosahedral cluster due to the large particle size.

Journal

Particle & Particle Systems CharacterizationWiley

Published: Feb 1, 2022

Keywords: colloidal clusters; icosahedral symmetry; photonic balls; spherical confinement; structural color

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