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Spontaneous Synthesis of Colloidal Molecules Through Polymer Self-Assembly

image picture ©Yohei Yamamoto

Researchers at University of Tsukuba have discovered that colloidal molecules with specific symmetrical shapes, such as polyatomic molecules, are spontaneously formed through self-assembly via the assembling of a blend solution of two types of conjugated polymers into clusters of micrometer-scale polymer droplets.

Tsukuba, Japan—The shapes of simple polyatomic molecules such as carbon dioxide and methane are characterized by a specific symmetry depending on the manner of linking of the atoms. Nano- to micrometer-sized particles that mimic the shapes of such polyatomic molecules are referred to as colloidal molecules, which can form soft materials. However, conventionally synthesizing colloidal molecules with such specific symmetry requires a multi-step synthetic process.


In this study, researchers successfully demonstrated the bottom-up synthesis of colloidal molecules consisting of fluorescent polymers. They achieved this by blending two conjugated polymers in a solution and allowing them to self-assemble. Self-assembly involves the stepwise formation of polymer microdroplets. One of the polymers formed the first droplet to serve as the core droplet, on which the other polymer subsequently formed satellite droplets, resulting in the formation of phase-separated droplet clusters. As the self-assembly proceeded, these droplet clusters grew while maintaining a symmetric shape similar to polyatomic molecules and then solidified to form colloidal molecules. This entire self-assembly process is spontaneous. The researchers also discovered that colloidal molecules with various symmetries formed depending on the polymer mixing ratio.


A polymer solution forms micrometer-sized droplets via a liquid-liquid phase separation process. This study incorporated this process into the self-assembly of a synthetic polymer and synthesized fluorescent colloidal molecules solely through the polymer self-assembly, for the first time. By further controlling the assembly of the droplet clusters, higher-order colloidal assemblies can be formed, leading to the development of new polymer microphotonics materials.


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This work was supported by JST CREST (JPMJCR20T4) from Japan Science and Technology Agency (JST), JSPS overseas research fellowship, and KAKENHI (JP22H05131, JP24H00470, JP24H01693) from Japan Society for the Promotion of Science (JSPS).



Original Paper

Title of original paper:
Spontaneous Formation of π-Conjugated Polymeric Colloidal Molecules through Stepwise Coacervation and Symmetric Compartmentalization
Journal:
Small
DOI:
10.1002/smll.202404934

Correspondence

Professor YAMAMOTO Yohei
Assistant Professor OKI Osamu
Institute of Pure and Applied Sciences, University of Tsukuba


Related Link

Institute of Pure and Applied Sciences