Water Reuse (Jun 2024)

Green synthesis of Fe-nanoparticles using pruned tea leaf extract: characterization and use for degradation of dyes from aqueous phase in Fenton-like systems

  • Xiyao Liu,
  • Wenchang Zhao,
  • Zechun Huang,
  • Tzu-Hsing Ko,
  • Zhijian Song,
  • Hau Han,
  • Murat Yilmaz

DOI
https://doi.org/10.2166/wrd.2024.137
Journal volume & issue
Vol. 14, no. 2
pp. 160 – 176

Abstract

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Green synthesis of nanoparticles (NPs) is considered a highly promising technology for materials. The use of plant-based NPs is the simplest with high reproducibility. Iron nanoparticles (Fe-NPs) were synthesized by pruned tea leaf extract and FeSO4 and were analyzed by XRD, FTIR, XPS, and TEM. The catalytic activity of the Fe-NPs was evaluated for dye degradation under different operating parameters. Kinetc and thermodynamic tests were also conducted to study the reaction behavior. Results showed that the Fe-NPs had an average pore size of 17.9 nm with a surface area of 2.54 m2 g−1. The Fe-NPs contained Fe–O bonds and bioactive substances. The crystalline Fe-NPs were composed of FeOOH, Fe2O3, and α-Fe forms. XPS showed the presence of Fe3+ and Fe2+ in a ratio of 1.78, with Fe2+ accounting for over 64%. TEM revealed the spherical structure with particle size around 34–52 nm. The degradation efficiency of Congo red (CR) surpassed 95% within 30 min for the Fenton-like system, while sole adsorption only achieved 50%. Increasing the solution pH had a significant negative effect. Pseudo-second-order model provided the best fit. Thermodynamic calculations revealed that the catalytic degradation is favorable, spontaneous, and endothermic. Reusability demonstrated that over 95% retention was achieved after five cycles. HIGHLIGHTS Fe-nanoparticles were synthesized using pruned tea leaf extract.; Fe-nanoparticles exhibited superior catalytic activity in a Fenton-like system.; More than 95% degradation efficiency was achieved after five cycles.; The pseudo-second-order kinetic model provided the best fit for the experimental data.; The reaction was spontaneous endothermic and increased disorder.;

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