Solvent-free synthesis of composite magnetic CoO@ZIF-67 for efficient and practical use

IF 4.8 3区材料科学 Q1 CHEMISTRY, APPLIED

Microporous and Mesoporous Materials Pub Date : 2024-05-31 DOI:10.1016/j.micromeso.2024.113200

Somboon Chaemchuen , Qing Wu , Jun-Fei Gu , Ye Yuan , Nikom Klomkliang , Francis Verpoort

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Abstract

The facile synthesis of composite material, combining magnetic CoO with ZIF-67 (CoO@ZIF-67), has been successfully developed. This innovative approach involves the growth of a crystalline (ZIF-67) derived from stable and abundant CoO, resulting in the formation of the composite magnetic CoO@ZIF-67. The synthesis method, based on a solid-state thermal approach (SST), is straightforward and efficient, conducted in a single step and under solvent-free conditions, leading to the homogeneously composite formation of CoO@ZIF-67. Importantly, the composite magnetic CoO@ZIF-67 material has demonstrated remarkable catalytic performance as a heterogeneous catalyst in various reactions while requiring a lower catalyst loading under comparable conditions to those needed for pure ZIF-67. A significant advantage of this newly developed composite catalyst, CoO@ZIF-67, is its ease of separation and recyclability. The recovery catalyst can be achieved through the use of an external magnet, making it a standout feature of the green and environmentally friendly synthetic procedure used in its production.

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无溶剂合成高效实用的复合磁性 CoO@ZIF-67

磁性 CoO 与 ZIF-67 复合材料（CoO@ZIF-67）的简便合成方法已经研制成功。这种创新方法包括从稳定而丰富的 CoO 中生长出结晶（ZIF-67），从而形成复合磁性 CoO@ZIF-67。该合成方法基于固态热方法（SST），简单高效，只需一步，在无溶剂条件下即可均匀地形成 CoO@ZIF-67。重要的是，这种复合磁性 CoO@ZIF-67 材料作为异相催化剂在各种反应中都表现出了显著的催化性能，同时在与纯 ZIF-67 相当的条件下，催化剂负载量也较低。这种新开发的复合催化剂 CoO@ZIF-67 的一个显著优点是易于分离和回收。通过使用外部磁铁就可以实现催化剂的回收，这也是其生产过程中所使用的绿色环保合成工艺的一个突出特点。

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来源期刊

Microporous and Mesoporous Materials 化学-材料科学：综合

CiteScore

10.70

自引率

5.80%

发文量

649

审稿时长

26 days

期刊介绍： Microporous and Mesoporous Materials covers novel and significant aspects of porous solids classified as either microporous (pore size up to 2 nm) or mesoporous (pore size 2 to 50 nm). The porosity should have a specific impact on the material properties or application. Typical examples are zeolites and zeolite-like materials, pillared materials, clathrasils and clathrates, carbon molecular sieves, ordered mesoporous materials, organic/inorganic porous hybrid materials, or porous metal oxides. Both natural and synthetic porous materials are within the scope of the journal. Topics which are particularly of interest include: All aspects of natural microporous and mesoporous solids The synthesis of crystalline or amorphous porous materials The physico-chemical characterization of microporous and mesoporous solids, especially spectroscopic and microscopic The modification of microporous and mesoporous solids, for example by ion exchange or solid-state reactions All topics related to diffusion of mobile species in the pores of microporous and mesoporous materials Adsorption (and other separation techniques) using microporous or mesoporous adsorbents Catalysis by microporous and mesoporous materials Host/guest interactions Theoretical chemistry and modelling of host/guest interactions All topics related to the application of microporous and mesoporous materials in industrial catalysis, separation technology, environmental protection, electrochemistry, membranes, sensors, optical devices, etc.

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