Mesophase Formation Stabilizes High-Purity Magic-Sized Clusters
Douglas R. Nevers, Curtis B. Williamson, Benjamin H. Savitzky, Ido, Hadar, Uri Banin, Lena F. Kourkoutis, Tobias Hanrath, and Richard D. Robinson

TL;DR
This study reveals that mesophase formation during high-concentration synthesis stabilizes high-purity magic-sized clusters (MSCs), offering a new understanding of their stability beyond traditional atomic packing explanations.
Contribution
It demonstrates that self-formed mesophases at high concentrations stabilize MSCs, providing a novel mechanism for their stability and a robust synthesis method.
Findings
High concentration synthesis (>1000 mM) yields >99.9% pure MSCs.
Mesophase formation correlates with MSC stability and inhibits nanoparticle growth.
Lower concentrations lead to MSC destabilization and nanoparticle formation.
Abstract
Magic-sized clusters (MSCs) are renowned for their identical size and closed-shell stability that inhibit conventional nanoparticle (NP) growth processes. Though MSCs have been of increasing interest, understanding the reaction pathways toward their nucleation and stabilization is an outstanding issue. In this work, we demonstrate that high concentration synthesis (1000 mM) promotes a well-defined reaction pathway to form high-purity MSCs (greater than 99.9 percent). The MSCs are resistant to typical growth and dissolution processes. Based on insights from in-situ X-ray scattering analysis, we attribute this stability to the accompanying production of a large, hexagonal organic-inorganic mesophase (greater than 100 nm grain size) that arrests growth of the MSCs and prevents NP growth. At intermediate concentrations (500 mM), the MSC mesophase forms, but is unstable, resulting in NP…
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