<p>Green catalysts play an important role in organic reactions towards the synthesis of organic heterocycles. Iron nanoparticles as catalysts in organic reactions demonstrated superior efficacy. Among organic heterocycles, analogues of quinoline have an irreplaceable place in modern and current science owing to their various features. The development of quinoline derivatives demands an alternate green pathway that provides a short reaction time and high yield of the product. Iron-based nanoparticles as catalyst have sufficient potential to promote organic reactions towards the synthesis of quinoline derivatives. The recent has decade witnessed the utilization of iron-based nanoparticles in the construction of quinolone- based molecular hybrids. This review summarizes the reports from 2015 to 2025 to related iron-catalysed reactions towards the development of quinoline scaffolds.</p> Graphical abstract <p></p>

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Recent progress in the development of fused quinoline scaffolds using iron nanoparticles

  • Shubham Sharma,
  • Swati Rani,
  • Vinod,
  • Islom Kadirov,
  • Magdi E. A. Zaki,
  • Abdullah Mohamed Asiri,
  • Sobhi M. Gomha,
  • Vaishali

摘要

Green catalysts play an important role in organic reactions towards the synthesis of organic heterocycles. Iron nanoparticles as catalysts in organic reactions demonstrated superior efficacy. Among organic heterocycles, analogues of quinoline have an irreplaceable place in modern and current science owing to their various features. The development of quinoline derivatives demands an alternate green pathway that provides a short reaction time and high yield of the product. Iron-based nanoparticles as catalyst have sufficient potential to promote organic reactions towards the synthesis of quinoline derivatives. The recent has decade witnessed the utilization of iron-based nanoparticles in the construction of quinolone- based molecular hybrids. This review summarizes the reports from 2015 to 2025 to related iron-catalysed reactions towards the development of quinoline scaffolds.

Graphical abstract