Article citationsMore>>
Davydov, V., Rakhmanina, A., Kireev, I., Alieva, I., Zhironkina, O., Strelkova, O., Dianova, V., Samani, T.D., Mireles, K., Yahia, L.H., Uzbekov, R., Agafonov, V. and Khabashesku, V. (2014) Solid State Synthesis of Carbon-Encapsulated Iron Carbide Nanoparticles and Their Interaction with Living Cells. Journal of Materials Chemistry B, 2, 4250-4261.
https://doi.org/10.1039/C3TB21599G
has been cited by the following article:
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TITLE:
Fluorescent Superparamagnetic Core-Shell Nanostructures: Facile Synthesis of Fe@C-CNx Particles for Reusable Photocatalysts
AUTHORS:
Sankaran Murugesan, Oleksandr Kuznetsov, Zhou Zhou, Valery Khabashesku
KEYWORDS:
Magnetic Nanoparticles, Core-Shell Nanostructures, Fe@C-CNx, Fluorescence, Photocatalysts
JOURNAL NAME:
Advances in Nanoparticles,
Vol.8 No.1,
January
29,
2019
ABSTRACT: Synthesis and characterization of hybrid fluorescent superparamagnetic core-shell particles of Fe@C-CNx composition are presented for the first time. The prepared Fe@C-CNx hybrid nanoparticles were found to possess multifunctionality by exhibiting strong superparamagnetic properties and bright fluorescence emissions at 500 nm after the excitation with light in the UV-visible range. Fe@C-CNx also exhibits photocatalytic activities for organic dye degradation comparable to pure amorphous CNx with reusability through magnetic separation. The combination of magnetic and fluorescent properties of core-shell Fe@C-CNx nanoparticles opens opportunities for their application as sensors and magnet manipulated reusable photocatalysts. Superparamagnetic Fe@C core-shell nanoparticles were used as the template material in the synthesis, where the carbon shell was functionalized through one-step free-radical addition of alkyl groups terminated with carboxylic acid moieties. The method utilizes the organic acyl peroxide of dicarboxylic acid (succinic acid peroxide) as a non-oxidant functional free radical precursor for functionalization. Further, covalently functionalized succinyl-Fe@C core-shell nanoparticles were coated with the amorphous carbon nitride (CNx) generated by an in-situ solution-based chemical reaction of cyanuric chloride with lithium nitride. A detailed physicochemical characterization of the microstructure, magnetic and fluorescence properties of the synthesized hybrid nanoparticles is provided.
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