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Fabrication of Self-Assembled BiFeO 3 /CeO 2 Nanocatalytic Materials for Efficient Catalytic Dye Degradation.

Lin LiQi LiDongqing WangYubo ZhangFei LiYaru ZhangTifeng Jiao
Published in: Nanomaterials (Basel, Switzerland) (2023)
The catalytic treatment of wastewater serves as an effective way to solve the problem of water pollution, in which non-homogeneous Fenton catalysts are widely used. However, the activity enhancement of non-homogeneous Fenton catalysts still remains a great challenge. Herein, self-assembled BiFeO 3 /CeO 2 nanocatalytic materials with different molar ratios were successfully fabricated by a suspension blending method, following which the structure evolution was determined by various characterizations. The catalytic degradation of methylene blue (MB), rhodamine B (RhB), and saffron T (ST) were performed over the BiFeO 3 /CeO 2 nanocatalytic materials. It was found that the 0.2BiFeO 3 :0.8CeO 2 nanocatalytic materials exhibited an 80.8% degradation efficiency for RhB. The 0.6BiFeO 3 :0.4CeO 2 nanocatalytic materials reached 81.1% and 48.7% for ST and MB, respectively. The BiFeO 3 /CeO 2 nanocatalytic materials also showed a good stability during several cycles. The combination of CeO 2 with BiFeO 3 led to an enhanced activity for dye degradation, probably due to the electron transfer from ≡Fe 2+ to ≡Ce 4+ . This study provides a new approach to dye degradation by using Fenton catalytic systems.
Keyphrases
  • highly efficient
  • wastewater treatment
  • hydrogen peroxide
  • heavy metals
  • visible light
  • climate change
  • combination therapy
  • health risk assessment
  • transition metal
  • tissue engineering