Quantitative 3D Real‐Space Analysis of Photonic Supraparticles
Jesse Ian Bückmann, Leroy Daniël Hoitink, Ruizhi Yang, Alptuğ Ulugöl, Laura Filion, Alfons van Blaaderen

TL;DR
This paper introduces a new method to study photonic supraparticles using 3D real-space analysis, enabling detailed structural insights and classification.
Contribution
The novel contribution is a quantitative 3D real-space analysis method for photonic supraparticles using confocal and STED microscopy combined with machine learning.
Findings
The method enables accurate classification of supraparticle structures, including icosahedral and decahedral forms.
It provides experimental insights into self-assembly pathways and defect formation mechanisms.
The approach allows for photonic calculations based on real experimental data.
Abstract
Supraparticles (SPs) are assemblies of smaller particles, and they form an interesting material class. One way through which these structures can be formed is self‐assembly (SA) in spherical confinement, and what makes them unique is that they combine the properties of the smaller particles with collective properties arising from the length scale on which these smaller particles are ordered. Additionally, the limited number of particles in an SP enables them to form structures that are not found in bulk systems. An example of this is icosahedral symmetry, which is the equilibrium structure for SPs up to several hundreds of thousands of particles. Although these icosahedral structures have been investigated through computer simulations and several experimental techniques have been used to analyze them in 3D, the number of experimental datasets published is so limited that no…
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Taxonomy
TopicsNear-Field Optical Microscopy · Photonic Crystals and Applications · Pickering emulsions and particle stabilization
