Highly active BiFeO3–g-C3N4 S-scheme heterojunction with improved antibiotic degradation under visible-light: revealing mechanism

Highly active BiFeO3–g-C3N4 S-scheme heterojunction with improved antibiotic degradation under visible-light: revealing mechanism

The photocatalyst S-scheme BiFeO 3 –g-C 3 N 4 had been prepared by combining calcination and hydrothermal reaction. 10% BiFeO 3 –g-C 3 N 4 composite showed the greatest photocatalytic effect during tetracycline hydrochloride degradation (TC-HCl, 99.7% removal) within 100 min. Meantime, the photocata...

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Veröffentlicht in:Research on chemical intermediates 2024-08, Vol.50 (8), p.3505-3521
Hauptverfasser: Guo, Yaping, Li, Jing, Zhang, Jin, Wang, Xiujv
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Sprache:eng
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Carbon nitride
Carrier lifetime
Catalysis
Chemistry
Chemistry and Materials Science
Conduction bands
Efficiency
Electron transport
Heterojunctions
Heterostructures
Hydrothermal reactions
Inorganic Chemistry
Magnetic properties
Photocatalysis
Photocatalysts
Photodegradation
Physical Chemistry
Recycling
Valence band
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Li, Jing
Zhang, Jin
Wang, Xiujv
description The photocatalyst S-scheme BiFeO 3 –g-C 3 N 4 had been prepared by combining calcination and hydrothermal reaction. 10% BiFeO 3 –g-C 3 N 4 composite showed the greatest photocatalytic effect during tetracycline hydrochloride degradation (TC-HCl, 99.7% removal) within 100 min. Meantime, the photocatalytic efficacy was further confirmed by the removal efficiency of ciprofloxacin(CIP, 98.2% removal). The formation of S-scheme heterostructure and matching valence band and conduction band may be responsible for the improved photocatalytic efficiency of BiFeO 3 –g-C 3 N 4 . This leads to the rapid separation of photo-induced carriers, increased electronic transport capacity, and extended carrier lifetime. A study was done on the potential mechanism by employing chemical scavenger experiment revealing the paramount role of O 2 − . The composite could maintain photocatalytically stable even after five consecutive reaction cycles. The recovery efficiency of 10% BiFeO 3 –g-C 3 N 4 was high because of the magnetic property of BiFeO 3 , which was convenient for the recycling process. The produced photocatalyst has potential use in the field of photocatalysis, and this work provides a novel thought to raise the photocatalysts recovery efficiency during recycling.
doi_str_mv 10.1007/s11164-024-05326-1
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Meantime, the photocatalytic efficacy was further confirmed by the removal efficiency of ciprofloxacin(CIP, 98.2% removal). The formation of S-scheme heterostructure and matching valence band and conduction band may be responsible for the improved photocatalytic efficiency of BiFeO 3 –g-C 3 N 4 . This leads to the rapid separation of photo-induced carriers, increased electronic transport capacity, and extended carrier lifetime. A study was done on the potential mechanism by employing chemical scavenger experiment revealing the paramount role of O 2 − . The composite could maintain photocatalytically stable even after five consecutive reaction cycles. The recovery efficiency of 10% BiFeO 3 –g-C 3 N 4 was high because of the magnetic property of BiFeO 3 , which was convenient for the recycling process. 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subjects Carbon nitride
Carrier lifetime
Catalysis
Chemistry
Chemistry and Materials Science
Conduction bands
Efficiency
Electron transport
Heterojunctions
Heterostructures
Hydrothermal reactions
Inorganic Chemistry
Magnetic properties
Photocatalysis
Photocatalysts
Photodegradation
Physical Chemistry
Recycling
Valence band
title Highly active BiFeO3–g-C3N4 S-scheme heterojunction with improved antibiotic degradation under visible-light: revealing mechanism
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