Wenyu Dong, Zhaoxu Wang, Cai Zuxian, Deng Yiqiang, Guanyu Wang, Baishu Zheng
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引用次数: 0
摘要
在多孔框架中加入多个功能位点以极大地增强主客体之间的相互作用是获得高性能二氧化碳捕获和化学固定MOF材料的有效策略。在此,我们设计并构建了一种微孔(3,36)连接的 Txt 型铜(II)基 MOF(HNUST-17),该材料由二铜(II)-桨轮团簇和一种新型吡啶基酰基酰胺连接的 V 型带氨基的邻苯二甲酸二异酯配体组成。有趣的是,通过 GCMC(大规范蒙特卡洛)模拟和 DFT(密度泛函理论)计算,HNUST-17 的框架中集成了高密度的多个强 CO2 亲位(开放金属位、酰基酰胺和氨基官能团),因此在环境温度下,HNUST-17 对 CO2 的捕获率和选择性都很高,超过了对 CH4 和 N2 的捕获率。此外,HNUST-17 还具有高效的催化活性和可回收性,可在温和、无溶剂的条件下,在四丁基溴化铵作为助催化剂的存在下,将 CO2 与环氧化物偶联化学固定为环状碳酸盐。
Highly efficient CO2 capture and chemical fixation of a microporous (3, 36)-connected txt-type Cu(II)-MOF with multifunctional sites
Incorporating multiple functional sites in porous frameworks to enormously enhance the host-guest interactions is an effective strategy to obtain high-performance CO2 capture and chemical fixation MOF materials. Herein, we designed and constructed a microporous (3, 36)-connected txt-type Cu(II)-based MOF (HNUST-17) from dicopper(II)-paddlewheel clusters and a novel pyridine-based acylamide-linking V-shape diisophthalate ligand with amino groups. Interestingly, with a high density of multiple strong CO2-philic sites (open metal sites, acylamide and amino functionalities) integrated in the framework, which have been identified by GCMC (Grand canonical Monte Carlo) simulations and DFT (Density functional theory) calculations, HNUST-17 exhibits high and selective capture for CO2 over CH4 and N2 at ambient temperature. Moreover, HNUST-17 possesses efficiently catalytic activity and recyclability for chemical fixation of CO2 coupling with epoxides into cyclic carbonates in the presence of tetrabutylammonium bromide as the cocatalyst under mild, solvent-free conditions.
期刊介绍:
Dalton Transactions is a journal for all areas of inorganic chemistry, which encompasses the organometallic, bioinorganic and materials chemistry of the elements, with applications including synthesis, catalysis, energy conversion/storage, electrical devices and medicine. Dalton Transactions welcomes high-quality, original submissions in all of these areas and more, where the advancement of knowledge in inorganic chemistry is significant.
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