Известия Саратовского университета. Новая серия Серия: Физика (Dec 2023)

Recrystallization of CaCO3 submicron magnetic particles in biological media

  • Kalinova, Alexandra E.,
  • Kuznetsova, Ludmila Ivanovna,
  • Ushakov, Arseni V.,
  • Popova, Maria A.,
  • Abalymov, Anatoliy A.,
  • Demina, Polina A.,
  • Anisimov, Roman A.,
  • Lomova, Maria V.

DOI
https://doi.org/10.18500/1817-3020-2023-23-4-371-377
Journal volume & issue
Vol. 23, no. 4
pp. 371 – 377

Abstract

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Background and Objectives: The development of magnetic theranostics is associated with the determination of the behavior of magnetic carriers in biosimilar media. In this work, we analyze the formation of different crystalline phases from magnetic mineral submicron calcium carbonate particles during incubation under conditions of cell cultivation in vitro for 3 days. The study of mineralmagneticsubmicron particles recrystallization was analyzed by XRD and electron scanning microscopy. The shape of calcium carbonate particles begins to change from elliptical to spherical under cell culture cultivations. As the amount of magnetite nanoparticle particles in calcium carbonate increases, the recrystallization process is faster with fallout of calcite, vaterite and magnetite phases. Materials and Methods: Scanning electron microscopy, processing of results using a self-written Python code, XRDwere utilized in this study. Results: The study of the process of recrystallization of magnetic mineral particles shows has shown that increasing the content of magnetic carriers leads to accelerated recrystallization of particles with simultaneous precipitation of calcite, vaterite and magnetite phases. Conclusion: Magnetic mineral submicron calcium carbonate particles are promising targets for theranostics with the self-destruction property in biological environments.

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