锆
金属有机骨架
配体(生物化学)
环氧化物
等结构
环加成
催化作用
表面改性
化学
路易斯酸
吸附
无机化学
材料科学
结晶学
有机化学
晶体结构
物理化学
受体
生物化学
作者
Xiaodong Sun,Litong Shi,Haijun Hu,Hongwei Huang,Tianyi Ma
标识
DOI:10.1002/adsu.202000098
摘要
Abstract Ligand functionalization has always been considered as an effective method for regulating the catalytic activity of the metal‐organic frameworks (MOFs) materials. Herein, three stable zirconium‐based MOFs (Zr‐MOFs), constructed by the 10‐connected Zr 6 cluster and different groups‐decorated V‐shaped ligands (H 2 L), are successfully synthesized through a facile ligand functionalization method. Subsequently, three isostructural Zr‐MOFs, including the parent structure Zr(H 2 L), amino‐decorated Zr(H 2 L) (NH 2 ‐Zr(H 2 L)), and fluorine and amino bi‐decorated Zr(H 2 L) (F‐NH 2 ‐Zr(H 2 L)), are employed as the platform for systematically investigating the effect of Lewis basic groups on the CO 2 adsorption and separation behavior, more importantly the CO 2 chemical fixation. Benefitting from the decorated Lewis basic groups, not only the CO 2 adsorption enthalpy and selectivity over CH 4 of NH 2 ‐Zr(H 2 L) and F‐NH 2 ‐Zr(H 2 L) are improved, but also their catalytic activities for cycloaddition of CO 2 to form cyclic carbonates are significantly enhanced. Among them, F‐NH 2 ‐Zr(H 2 L) exhibits the most effective performance for cycloaddition of CO 2 and styrene epoxide, which can be attributed to the strong polarization between the CO 2 molecule and the framework of F‐NH 2 ‐Zr(H 2 L). Under a mild condition, the yield of F‐NH 2 ‐Zr(H 2 L) for cycloaddition of CO 2 with styrene epoxide can reach up to 97%, which surpasses most of the reported MOFs‐based catalysts.
科研通智能强力驱动
Strongly Powered by AbleSci AI