A novel resource utilization type 3-dimensional flower spheroidal Fe3O4@C@(BiO)2CO3: High-efficiency degradation of tetracycline under visible light

“…The 3D flower BiPO4/ SnS2 com-posite has improved photocatalytic degradation with 73.16% of methylene blue molecules were decomposed [149]. Li et al [94] prepared novel 3D flower-like Fe3O4@C@ (BiO)2CO3 with perfect surface when the content of Fe3O4@C was 2.5 wt.%, which could optimally match the amount of (BiO)2CO3 to provide good catalytic degradation of tetracycline [150]. The mechanistic study on the photocatalytic degradation of tetracycline by 3D flower-like Fe3O4@C@(BiO)2CO3 revealed that • OH radicals were the main active species to photodegrade.…”

3D Flower-like Composites in Energy Storage and Photocatalytic Applications: A Review

“…The 3D flower BiPO4/ SnS2 com-posite has improved photocatalytic degradation with 73.16% of methylene blue molecules were decomposed [149]. Li et al [94] prepared novel 3D flower-like Fe3O4@C@ (BiO)2CO3 with perfect surface when the content of Fe3O4@C was 2.5 wt.%, which could optimally match the amount of (BiO)2CO3 to provide good catalytic degradation of tetracycline [150]. The mechanistic study on the photocatalytic degradation of tetracycline by 3D flower-like Fe3O4@C@(BiO)2CO3 revealed that • OH radicals were the main active species to photodegrade.…”

3D Flower-like Composites in Energy Storage and Photocatalytic Applications: A Review

Optimized strategies for (BiO)2CO3 and its application in the environment

Mechanism insight into boosting photocatalytic purification of tetracycline hydrochloride over 2D/2D S-scheme (BiO)2CO3/BiOCl heterojunctions