Type II Heterojunction Formed by 3D Flower-like Microspheres of BiOBr/NH<sub>2</sub>–Fe-MOF with High Photocatalytic Degradation of RhB via Visible Light
Cheng Yang, Xinjia Zhang, Junsu Jin, Xiuqing Kang
Abstract
Using the solvothermal method, a novel three-dimensional flower-like microsphere structure composite BiOBr/NH 2 –Fe-MOF was prepared with type II heterojunction through the combination between BiOBr and NH 2 –Fe-MOF, which had 20% enhancement of specific surface area and effectively suppressed the recombination of photoinduced electron–hole pairs. After 40 min of visible light irradiation, the degradation rate constant of BiOBr/NH 2 –Fe-MOF-2 reached 0.08507 min –1, which was 5.29 times higher than that of BiOBr and 11.34 times higher than that of NH 2 –Fe-MOF. BiOBr/NH 2 –Fe-MOF-2 represented the highest degradation efficiency of rhodamine B, up to 98.3%. After 6 cycles of experiments, the degradation rate could still maintain 85%, which is superior to the research results of most photocatalysts reported in the literature in the last 5 years. The mechanistic study suggested that • O 2 – was the main active species in RhB photocatalytic degradation. The combination of NH 2 –Fe-MOF with BiOBr in this study provides a new method for the rapid degradation of dye pollutants.