Recent advances in the synthesis of nanoscale hierarchically porous metal–organic frameworks

IF 9.9 2区 材料科学 Q1 Engineering Nano Materials Science Pub Date : 2022-12-01 DOI:10.1016/j.nanoms.2021.12.003
Chongxiong Duan , Kuan Liang , Zena Zhang , Jingjing Li , Ting Chen , Daofei Lv , Libo Li , Le Kang , Kai Wang , Han Hu , Hongxia Xi
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引用次数: 20

Abstract

Nanoscale hierarchically porous metal–organic frameworks (NHP-MOFs) have received unprecedented attention in many fields owing to their integration of the strengths of nanoscale size (<1 ​μm) and hierarchical porous structure (micro-, meso- and/or macro-pores) of MOFs. This review focuses on recent advances in the main synthetic strategies for NHP-MOFs based on different metal ions (e.g., Cu, Fe, Co, Zn, Al, Zr, and Cr), including the template method, composite technology, post-synthetic modification, in situ growth and the grind method. In addition, the mechanisms of synthesis, regulation techniques and the advantages and disadvantages of various methods are discussed. Finally, the challenges and prospects of the commercialisation of promising NHP-MOFs are also presented. The purpose of this review is to provide a road map for future design and development of NHP-MOFs for practical application.

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纳米级多孔金属有机骨架的合成研究进展
纳米级分层多孔金属有机骨架(NHP-MOFs)由于其具有纳米尺寸(1 μm)和分层多孔结构(微孔、介孔和/或宏观孔)的优势,在许多领域受到了前所未有的关注。本文综述了基于不同金属离子(Cu、Fe、Co、Zn、Al、Zr和Cr)的nfp - mof的主要合成策略的最新进展,包括模板法、复合技术、合成后改性、原位生长和研磨法。此外,还讨论了合成机理、调控技术以及各种方法的优缺点。最后,提出了具有发展前景的nhp - mof的商业化面临的挑战和前景。本文综述的目的是为未来nhp - mof的设计和开发提供一个实际应用的路线图。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Nano Materials Science
Nano Materials Science Engineering-Mechanics of Materials
CiteScore
20.90
自引率
3.00%
发文量
294
审稿时长
9 weeks
期刊介绍: Nano Materials Science (NMS) is an international and interdisciplinary, open access, scholarly journal. NMS publishes peer-reviewed original articles and reviews on nanoscale material science and nanometer devices, with topics encompassing preparation and processing; high-throughput characterization; material performance evaluation and application of material characteristics such as the microstructure and properties of one-dimensional, two-dimensional, and three-dimensional nanostructured and nanofunctional materials; design, preparation, and processing techniques; and performance evaluation technology and nanometer device applications.
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