设计用于将 CO 固定为环状碳酸酯的双功能催化剂的吡啶鎓功能化离子金属有机框架

Pyridinium-Functionalized Ionic Metal-Organic Frameworks Designed as Bifunctional Catalysts for CO Fixation into Cyclic Carbonates.

作者信息

Ji Hoon, Naveen Kanagaraj, Lee Wonjoo, Kim Tea Soon, Kim Dongwoo, Cho Deug-Hee

机构信息

Center for Advanced Specialty Chemicals, Korea Research Institute of Chemical Technology, 45, Jongga-ro, Jung-gu, Ulsan 44412, Republic of Korea.

出版信息

ACS Appl Mater Interfaces. 2020 Jun 3;12(22):24868-24876. doi: 10.1021/acsami.0c05912. Epub 2020 May 22.

DOI:10.1021/acsami.0c05912

PMID:32394698

Abstract

Ionic metal-organic frameworks (MOFs) offer a new platform to design and construct complete heterogeneous bifunctional catalytic systems for the chemical fixation of CO with epoxides. Herein, we developed a series of bifunctional pyridinium ionic MOF heterogeneous catalysts (66Pym-RXs and 67BPym-MeI) by the postsynthetic N-alkylation of noncoordinated pyridine sites in porous MOFs. The synergetic catalytic effect of acidic sites with nucleophilic anions in the ionic MOF significantly enhanced the catalytic activity toward the cycloaddition of CO with epoxides to produce cyclic carbonates under cocatalyst-free and solvent-free mild conditions. The catalytic activity of ionic MOFs is easily tuned by the introduction of different alkyl groups into pyridinium cations and halide ions. The 66Pym-PrI catalyst displayed the highest catalytic performance in terms of the turnover number value for the synthesis of cyclic carbonates. The proposed alternative method provides the means of developing functional N-heterocyclic groups for the new design of bifunctional ionic MOFs as potential heterogeneous catalysts for CO fixation applications.

摘要

离子金属有机框架材料（MOFs）为设计和构建用于环氧乙烷与CO化学固定反应的完整多相双功能催化体系提供了一个新平台。在此，我们通过对多孔MOFs中未配位吡啶位点进行后合成N-烷基化反应，开发了一系列双功能吡啶鎓离子MOF多相催化剂（66Pym-RXs和67BPym-MeI）。离子MOF中酸性位点与亲核阴离子的协同催化作用显著提高了在无共催化剂和无溶剂温和条件下环氧乙烷与CO环加成生成环状碳酸酯的催化活性。通过在吡啶鎓阳离子和卤离子中引入不同的烷基，可以轻松调节离子MOFs的催化活性。就环状碳酸酯合成的转数而言，66Pym-PrI催化剂表现出最高的催化性能。所提出的替代方法为开发功能性N-杂环基团提供了途径，用于新型双功能离子MOFs的设计，作为CO固定应用的潜在多相催化剂。

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设计用于将 CO 固定为环状碳酸酯的双功能催化剂的吡啶鎓功能化离子金属有机框架

Pyridinium-Functionalized Ionic Metal-Organic Frameworks Designed as Bifunctional Catalysts for CO Fixation into Cyclic Carbonates.

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