4.6 Article

Kinetically Controlled Synthesis of Nonspherical Polystyrene Nanoparticles with Manipulatable Morphologies

期刊

LANGMUIR
卷 38, 期 40, 页码 12132-12139

出版社

AMER CHEMICAL SOC
DOI: 10.1021/acs.langmuir.2c01326

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资金

  1. National Key Research and Development Program of China
  2. National Natural Science Foundation of China
  3. 111 Project
  4. (Ministry of Education of the People?s Republic of China)
  5. Fundamental Research Funds for the Central Universities
  6. [2017YFA0700500]
  7. [21635001]
  8. [52003051]
  9. [B17011]
  10. [2242021k10004]

向作者/读者索取更多资源

We report a versatile approach to fabricate nonspherical polystyrene nanoparticles with controlled morphologies based on kinetically controlled seed-mediated polymerization. By manipulating reaction kinetics parameters, such as monomer concentration, reactant injection rate, and reaction temperature, we can direct the monomers to polymerize on selective sites of PS seeds, resulting in nonspherical nanoparticles with various thermodynamically unfavored morphologies. The formation mechanism of these nanoparticles has been systematically investigated by monitoring seed evolution during the reaction. This method has also been successfully extended to different monomer and seed systems.
The morphology of nanoparticles plays a critical role in determining their properties and applications. Herein, we report a versatile approach to the fabrication of nonspherical polystyrene (PS) nanoparticles with controlled morphologies on the basis of kinetically controlled seed-mediated polymerization. By manipulating parameters related to the reaction kinetics including the concentration of monomers, injection rate of reactants, and reaction temperature, the monomers could be directed to polymerize on the selective sites of PS seeds, and after the removal of the second polymer, nonspherical nanoparticles with a variety of thermodynamically unfavored morphologies could be synthesized. We systematically investigated the formation mechanism of these nonspherical nanoparticles by monitoring the evolution of seeds during the reaction. Moreover, we have also successfully extended this strategy to reaction systems containing monomers with different combinations and seeds with different sizes. We believe this work will provide a promising route to the fabrication of nonspherical polymer nanoparticles with controlled morphologies for various applications.

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