高效捕获和分离二氧化碳--可定制金属有机框架促进碳中和:综述

EcoEnergy Pub Date : 2023-12-22 DOI:10.1002/ece2.15
Hao Zhang, Zihui Zhou, Yanan Yin, Hong Xu, Yimeng Wang, Kai Yang, Zhijun Zhang, Jianlong Wang, Xiangming He
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引用次数: 0

摘要

化石能源的长期发展导致了碳平衡的破坏。在清洁能源完全取代化石能源之前,需要利用碳捕集技术来减少碳排放。金属有机框架(MOFs)是一种多孔结晶材料,在气体吸附方面显示出巨大潜力,受到人们的高度关注。MOFs 结构和功能的可预测性也使得利用计算方法推进和加速研究成为可能。本综述简要介绍了 MOFs 的二氧化碳捕集与分离技术,包括吸附和膜分离技术。未来,膜分离技术因其处理效率高、碳足迹小等有利特性,有望成为碳捕集应用的重要研究领域,而混合基质膜(MMMs)因其成本低、分离性能好而受到更多学者的关注。总之,开发高性能的 MOF 或 MOF 衍生物,研究更高效的分离方法,如基于 MOF 的 MMM 的应用,应该是该领域学者未来研究的重点。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Efficient capture and separation of CO2‐Boosted carbon neutralization enabled by tailorable metal‐organic frameworks: A review
The long‐term development of fossil energy has led to the destruction of carbon balance. Carbon capture technology needs to be used to reduce carbon emissions before clean energy completely replaces fossil energy. Metal‐organic frameworks (MOFs), a porous crystalline material, show great potential in gas adsorption and has attracted great attention. The predictability of MOFs' structure and function also make it possible to use computational methods to advance and accelerate research. This review gives a brief overview of carbon dioxide capture and separation by MOFs, including adsorption and membrane separation. In the future, membrane separation technology is expected to be a crucial area of research for carbon capture applications due to its favorable characteristics such as high treatment efficiency and low carbon footprint, while mixed matrix membranes (MMMs) have been given more attention by scholars due to their lower cost and better separation performance. In summary, developing high‐performance MOFs or MOF derivatives and researching more efficient separation methods, such as the application of MOF‐based MMMs, should be the focus of future research by scholars in this field.
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