Construction and Regulation of Polymer@Silica Microspheres with Double-Shell Hollow Structures

Construction and Regulation of Polymer@Silica Microspheres with Double-Shell Hollow Structures

Microspheres with well-defined hollow structures have been attracting interest due to their unique morphology and fascinating properties. Herein, a strategy for morphology and size control of hollow polymer@silica microspheres is proposed. Multilayer core–shell polymer microspheres, containing subst...

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Bibliographic Details
Main Authors: Mingxiu Jiang, Yuanyuan Yang, Jiawei Feng, Zhaopan Wang, Wei Deng
Format: Article
Language:English
Published: MDPI AG 2025-02-01
Series:Molecules
Subjects:
hollow structure
double-shell structure
composite microspheres
morphology control
compression resistance
Online Access:https://www.mdpi.com/1420-3049/30/4/954
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Summary:Microspheres with well-defined hollow structures have been attracting interest due to their unique morphology and fascinating properties. Herein, a strategy for morphology and size control of hollow polymer@silica microspheres is proposed. Multilayer core–shell polymer microspheres, containing substantial carboxyl groups inside, evolve into microspheres with a 304 nm hollow structure after alkali treatment, which are used to construct hollow polymer@silica microspheres by coating the inorganic layer using the layer-by-layer (LBL) and sol–gel methods, respectively. The inorganic shell thickness of hollow polymer@silica microspheres can be adjusted from 15 nm to 33 nm by the self-assembled layers in the LBL method and from 15 nm to 63 nm by the dosage of precursor in the sol–gel method. Compared to the LBL method, the hollow polymer@silica microspheres prepared via the sol–gel method have a uniform and dense inorganic shell, thus ensuring the complete spherical morphology of the microspheres after calcination, even if the inorganic shell thickness is only 15 nm. Moreover, the hollow polymer@silica microspheres prepared via the sol–gel method exhibit improved compression resistance and good opacity, remaining intact at 16,000 psi and providing the corresponding coating with transmittance lower than 35.1%. This work highlights the morphology regulation of microspheres prepared by different methods and provides useful insights for the design of composites microspheres with controllable structures.
ISSN:1420-3049

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