<p>A magnetic nanocatalyst was created by attaching a 2-aminobenzenethiol-Pd complex to functionalized SrFe<sub>12</sub>O<sub>19</sub>, resulting in a versatile catalyst with high conversion efficiency, reduced reaction time, mild conditions, recyclability, and enhanced stability. Structural analysis was conducted using techniques like XPS, ICP, EDS, XRD, TEM, SEM, TGA, VSM, and FT-IR. The SrFe<sub>12</sub>O<sub>19</sub>@SiO<sub>2</sub>@TFA@AB-Pd catalyst effectively reduced nitroarene derivatives in a green medium, showcasing excellent recyclability with minimal efficiency loss over five cycles. A hot filtration test further confirmed its stability, highlighting its potential for sustainable industrial catalytic applications.</p>

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SrFe12O19 supported Pd complex as a sustainable nanocatalyst for reduction of nitroarenes derivatives

  • Mohammad abushuhel,
  • Magdi E. A. Zaki,
  • M. M. Rekha,
  • Noor Mazin Basheer,
  • Subhashree Ray,
  • Amrita Pal,
  • Renu Sharma,
  • Sobhi M. Gomha,
  • Abhayveer Singh

摘要

A magnetic nanocatalyst was created by attaching a 2-aminobenzenethiol-Pd complex to functionalized SrFe12O19, resulting in a versatile catalyst with high conversion efficiency, reduced reaction time, mild conditions, recyclability, and enhanced stability. Structural analysis was conducted using techniques like XPS, ICP, EDS, XRD, TEM, SEM, TGA, VSM, and FT-IR. The SrFe12O19@SiO2@TFA@AB-Pd catalyst effectively reduced nitroarene derivatives in a green medium, showcasing excellent recyclability with minimal efficiency loss over five cycles. A hot filtration test further confirmed its stability, highlighting its potential for sustainable industrial catalytic applications.