Fang Xiuxuan, Zou Jiaying, Ma Na, Dai Wei
Langmuir. 2022 Nov 29;38(47):14451-14464. doi: 10.1021/acs.langmuir.2c02318. Epub 2022 Nov 15.
Adsorptive desulfurization over metal-organic frameworks (MOFs) remains a challenge in maintaining good performance in the presence of water. Herein, multimetallic Fe/Ni/Cu/Zn-(MIL-88B)-on-(MOF-5) is first achieved through phase-competition-driven growth technology. The adsorption performance of thiophene (Th), benzothiophene (BT), and dibenzothiophene (DBT) in model fuels is systematically investigated at mild temperature and follows the order Fe/Ni/Cu/Zn-(MIL-88B)-on-(MOF-5) > MOF-5 > MIL-88B. Excellent adsorptive activity is mainly ascribed to the associative effects of multimetal active sites, suitable pore sizes and shapes, acid-base interactions, and complexation. Meanwhile, MIL-88B exhibits a "brick-wall" effect and effectively enhances the water stability of Fe/Ni/Cu/Zn-(MIL-88B)-on-(MOF-5) more than does MOF-5. Fe/Ni/Cu/Zn-(MIL-88B)-on-(MOF-5) exhibits superior stability even after being immersed in water for 5 days, maintaining 77, 77, and 81% of the initial DBT, BT, and Th uptake capacities. After five periods of regeneration, more than 90% of the desulfurization capacity of Fe/Ni/Cu/Zn-(MIL-88B)-on-(MOF-5) was recovered. This work provides a new strategy for the synthesis of desirable MOF-on-MOF, promoting its potential application to adsorption desulfurization.
在金属有机框架材料(MOF)上进行吸附脱硫,在有水存在的情况下保持良好性能仍是一项挑战。在此,通过相竞争驱动生长技术首次实现了多金属Fe/Ni/Cu/Zn-(MIL-88B)-负载于-(MOF-5)上。在温和温度下系统研究了模型燃料中噻吩(Th)、苯并噻吩(BT)和二苯并噻吩(DBT)的吸附性能,其顺序为Fe/Ni/Cu/Zn-(MIL-88B)-负载于-(MOF-5) > MOF-5 > MIL-88B。优异的吸附活性主要归因于多金属活性位点的协同效应、合适的孔径和形状、酸碱相互作用以及络合作用。同时,MIL-88B表现出“砖墙”效应,比MOF-5更有效地增强了Fe/Ni/Cu/Zn-(MIL-88B)-负载于-(MOF-5)的水稳定性。即使在水中浸泡5天后,Fe/Ni/Cu/Zn-(MIL-88B)-负载于-(MOF-5)仍表现出优异的稳定性,保持了初始DBT、BT和Th吸附容量的77%、77%和81%。经过五个再生周期后,Fe/Ni/Cu/Zn-(MIL-88B)-负载于-(MOF-5)的脱硫容量恢复了90%以上。这项工作为合成理想的MOF负载MOF提供了一种新策略,促进了其在吸附脱硫方面的潜在应用。
