为均匀分布的卟啉金属有机框架气凝胶注入功能,实现多样化应用

IF 4.8 3区 材料科学 Q1 CHEMISTRY, APPLIED
Yujun Wang , Peng Zhang , Chuantao Hou
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引用次数: 0

摘要

在纯金属有机框架(MOF)气凝胶中掺入各种功能纳米实体不仅能引入额外的功能,还能拓展 MOF 气凝胶的应用领域。本文介绍了一种将各种功能性纳米材料均匀加入卟啉 MOF 气凝胶的通用而简单的策略。具体来说,该策略主要涉及引入表面活性剂聚乙烯吡咯烷酮(PVP),将纳米材料分散在亲油性溶剂中,然后与卟啉 MOF 气凝胶的前体直接发生溶热反应。此外,通过仔细优化反应条件,还开发出了由两种 MOF 成分组成的均匀气凝胶复合材料。纳米实体@MOF 气凝胶复合材料的良好性能源于纳米实体与 MOF 气凝胶之间的协同效应,可在光化学电化学、吸附与光降解、电化学氧还原反应和荧光等领域提供先进的应用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Imparting functionality into porphyrin metal–organic framework aerogels with uniform distributions for diversified applications

Imparting functionality into porphyrin metal–organic framework aerogels with uniform distributions for diversified applications
The incorporation of various functional nanoentities into pure metal–organic framework (MOF) aerogels can not only introduce additional functionality but also expands the application scenarios of MOF aerogels. Herein, a general and simple strategy for uniform incorporation of various functional nanomaterials into a porphyrin MOF aerogel is presented. Specifically, this strategy primarily involves the introduction of a surfactant polyvinylpyrrolidone (PVP) to disperse the nanomaterials in lipophilic solvents, followed by a direct solvothermal reaction with the precursors of the porphyrin MOF aerogel. Additionally, uniform aerogel composites consisting of two MOF components have also been developed by careful optimizing the reaction conditions. The resulting nanoentity@MOF aerogel composites exhibit positive properties that stem from the synergistic effects between the nanoentities and MOF aerogel, offering advanced applications in areas such as photochemical electrochemistry, adsorption and photodegradation, electrochemical oxygen reduction reaction, and fluorescence.
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来源期刊
Microporous and Mesoporous Materials
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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