NH(2)-MIL-88B (Fe(α)In(1−α)) mixed-MOFs designed for enhancing photocatalytic Cr(vi) reduction and tetracycline elimination

Aiming at solving the issue of wastewater purification, this work synthesized NH(2)-MIL-88B (Fe(α)In(1−α)) photocatalysts by a simple one-pot method, which was employed for photocatalytic reduction of Cr(vi) and oxidation of TC-HCl. Compared with traditional NH(2)-MIL-88B (Fe) photocatalysts, NH(2)-MIL-88B (Fe(0.6)In(0.4)) displayed excellent photocatalytic performance; the photocatalytic redox rate for Cr(vi) and TC-HCl reached 86.83% and 72.05%, respectively. The good photocatalytic performance might be attributed to the metal-to-metal charge transition (MMCT) between Fe–O clusters and In–O clusters formed by doping In(iii) into NH(2)-MIL-88B (Fe), which provides effective active sites for the photocatalytic reduction and oxidation routes. Besides, the synergistic effect of the ligand-to-metal charge transition (LMCT) and MMCT expands the separation and transfer of photogenerated carriers and inhibits the recombination of electron–hole pairs, thus effectively improving the photocatalytic performance. Therefore, this work could provide a new method for the construction of mixed metal MOFs for the photocatalytic degradation of pollutants.