Materials Research (May 2024)

Effect of Photoluminescence of Nanomaterials to Verify Corrosion in Carbon Steel

  • Juliana S. Osterno Leitão,
  • Francisco M. Lima,
  • Daniel de C. Girão,
  • Lillian M. U. D. Fechine,
  • Samuel V. Carneiro,
  • Ralph S. Oliveira,
  • Francisco N. A Freire,
  • A. F. Valentim de Amorim,
  • Pierre B. A. Fechine,
  • Walney Silva Araújo,
  • Janaína S. Rocha

DOI
https://doi.org/10.1590/1980-5373-mr-2024-0045
Journal volume & issue
Vol. 27, no. suppl 1

Abstract

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The use of fluorescent nanomaterials in various fields of study has become increasingly common. In this work, the use of carbon quantum dots as a corrosion marker in carbon steel is proposed. To produce the sensor, carbon quantum dots based on ethylenediamine and citric acid were used, dissolved in a polymeric matrix. The quantum dot used showed a quantum yield of 42.34%. The nanomodified coatings emitted blue light under ultraviolet radiation lamp. However, it was observed that there is a loss of photoluminescence in the coating on the carbon steel substrate compared to the coating on the polymeric substrate, which maintained photoluminescence activity after natural exposure. Thus, it is inferred that the loss of photoluminescence may be associated with the corrosion process.

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