Pore-expanded UiO-66 pellets for efficient bisphenol A adsorption

Abstract

Pore expansion of the microporous metal–organic frameworks (MOFs) has caused most attraction in water treatment, but it is still challenging for MOFs shaping during the industrialization progress. Herein, pore-expanded UiO-66 pellet was fabricated to efficiently adsorb bisphenol A (BPA), which comprises the hierarchically porous UiO-66 (HP-UiO-66) powders well-distributed in the alginate-Ca2+ network. The mesopore percentage of HP-UiO-66 can be controlled by selective thermolysis of the hemilabile linker 2-nitroterephthalic acid (NO2-BDC) for the first time. The N2 adsorption/desorption tests show that the fabricated UiO-66 pellets well preserved the porosity of the original 0.25HP-UiO-66 powders, and the UiO-66 pellets had the excellent adsorption performance towards BPA with adsorption capacity up to 235.1 mg/g under neutral condition. Besides, the mechanism for BPA adsorption was revealed to be Zr-O bonding and π-π interaction by the analysis of X-ray photoelectron spectroscopy (XPS), and hydrogen bonding was simulated by density functional theory (DFT) calculation. Moreover, it was found that 1 g of the UiO-66 pellets with pore expansion can decontaminate >3 L water containing 100 mg/L BPA from continuous stream, and the high regenerative rate indicates the future industrial applications.