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Novel N-doped carbon dots derived from citric acid and urea: fluorescent sensing for determination of metronidazole and cytotoxicity studies.

Haiyan QiLixin QiuXiaohong ZhangTonghui YiJing JingRokayya SamiSitah F AlanaziZahrah AlqahtaniMahmood D AljabriMohammed M Rahman
Published in: RSC advances (2023)
Blue emitting nitrogen-doped carbon dots were synthesized using citric acid and urea through the hydrothermal method, and the fluorescence quantum yield was 35.08%. We discovered that N-CDs featured excellent robust fluorescence stability and chemical resistance. For metronidazole detection, our N-CDs exhibited quick response time, high selectivity and sensitivity, and low cytotoxicity. Specifically, our N-CDs could detect metronidazole in the linear range of 0-179 μM, and the LOD was 0.25 μM. Furthermore, metronidazole efficaciously quenches the fluorescence of N-CDs, possibly owing to the inner filter effect. Lastly, we have employed our N-CDs to detect metronidazole in commercial metronidazole tablets with high accuracy. Overall, the newly prepared fluorescence sensor, N-CDs, demonstrated a huge potential to detect metronidazole in a simple, efficient, sensitive, and rapid manner.
Keyphrases
  • quantum dots
  • energy transfer
  • sensitive detection
  • single molecule
  • visible light
  • loop mediated isothermal amplification
  • high resolution
  • mass spectrometry
  • simultaneous determination