Yanping Li, Xue Bian, Yang Liu, Wenyuan Wu, and Gaofeng Fu, Synthesis and characterization of ceria nanoparticles by complex-precipitation route, Int. J. Miner. Metall. Mater., 29(2022), No. 2, pp. 292-297. https://doi.org/10.1007/s12613-020-2126-9
Cite this article as:
Yanping Li, Xue Bian, Yang Liu, Wenyuan Wu, and Gaofeng Fu, Synthesis and characterization of ceria nanoparticles by complex-precipitation route, Int. J. Miner. Metall. Mater., 29(2022), No. 2, pp. 292-297. https://doi.org/10.1007/s12613-020-2126-9
Research Article

Synthesis and characterization of ceria nanoparticles by complex-precipitation route

+ Author Affiliations
  • Corresponding authors:

    Xue Bian    E-mail: fugf@smm.neu.edu.cn

    Gaofeng Fu    E-mail: fugf@smm.neu.edu.cn

  • Received: 23 April 2020Revised: 17 June 2020Accepted: 22 June 2020Available online: 24 June 2020
  • Ceria (CeO2) nanoparticles were successfully synthesized via a simple complex-precipitation route that employs cerium chloride as cerium source and citric acid as precipitant. The elemental analysis results of carbon, hydrogen, oxygen, and cerium in the precursors were calculated, and the results revealed that the precursors were composed of Ce(OH)3, Ce(H2Cit)3, or CeCit. X-ray diffraction analysis showed that all ceria nanoparticles had a face-centered cubic structure. With the molar ratio of citric acid to Ce3+ (n) of 0.25 and pH of 5.5, the specific surface area of the sample reached the maximum value of 83.17 m2/g. Ceria nanoparticles were observed by scanning electron microscopy. Selected area electron diffraction patterns of several samples were obtained by transmission electron microscopy, and the crystal plane spacing of each low-exponent crystal plane was calculated. The ultraviolet (UV)–visible transmittance curve showed that ceria can absorb UV light and pass through visible light. Among all samples, the minimum average transmittance of ultraviolet radiation a (UVA) was 4.42%, and that of ultraviolet radiation b (UVB) was 1.56%.

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