材料科学
多孔性
纳米技术
金属有机骨架
多孔介质
结构化
纳米工程
复合材料
吸附
有机化学
财务
经济
化学
作者
Seyyed Alireza Hashemi,Ahmadreza Ghaffarkhah,Ali Akbar Isari,Mahyar Panahi‐Sarmad,Feng Jiang,Orlando J. Rojas,Stefan Wuttke,Mircea Dincă,Mohammad Arjmand
标识
DOI:10.1002/adma.202411617
摘要
Metal-organic frameworks (MOFs) and covalent-organic frameworks (COFs) are the highly porous rising stars of reticular chemistry. However, most face challenges such as poor macroscopic structuring capability, inadequate mechanical robustness, and inaccessible porosities for target reactants, which hinder their practical applications. This review explores various strategies to assemble MOFs and COFs into macroscopic 3D-structured multi-scale porous structures, such as aerogels, foams, and sponges. The methods discussed include direct mixing, self-shaping, in situ growth, template-assisted approaches, and 3D printing. These strategies enable macroscopic MOF or COF porous structures to achieve excellent mechanical strength and tunable porosity from the molecular level and micro-scale up to the macroscopic level. This structural tunability allows the MOF or COF porous structures to outperform their neat powders by making their micro- and meso-porosities more accessible to target reactants. Such improvements pave the way for the functionality of MOF or COF species at larger scales, addressing urgent societal needs, including environmental remediation, CO2 capturing, value-added catalytic reactions, water harvesting, electromagnetic (EM) shielding, and beyond.
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