Since traditional photocatalysts have suffered from higher charge carrier recombination and moderate photocatalytic efficiency, developing photocatalysts is crucial for water treatment objectives. Hence, the various ratios of TiO on g-CN (CN) to form nano photocatalysts were synthesized by the solvothermal method. The 30%TiO/CN showed the best performance to degradation and debromination of 4-bromophenol (4-BP) solution completely (k = 6.6 × 10 min) under visible light emitted by LED (420 nm) in 30 min. Remarkably, the photocatalyst showed superior stability and reusability, maintaining its efficiency after four cycles of 4-BP degradation. The dominant ROS participating in 4-BP degradation were O and photogenerated holes (h), as investigated by free radical scavenging tests. The optical properties analysis revealed that the introduction of TiO to the bulk CN decreases electron-hole recombination and improve photocatalytic performance by facilitating electrons transfer through the TiO nanoparticles in a chain. The findings of this study showed that the TiO/CN photocatalyst is a promising catalyst for the degradation of 4-BP. It exhibits a higher rate constant and photocatalytic efficiency compared with previous studies conducted under visible light irradiation.
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