Micro and Nanoporous Membrane Platforms for Carbon Neutrality: Membrane Gas Separation Prospects

IF 7 2区 化学 Q1 CHEMISTRY, MULTIDISCIPLINARY Chemical record Pub Date : 2024-03-19 DOI:10.1002/tcr.202300352
Dr. Arshad Hussain, Hajera Gul, Waseem Raza, Dr. Salman Qadir, Dr. Muhammad Rehan, Dr. Nadeem Raza, Aasif Helal, Dr. M. Nasiruzzaman Shaikh, Dr. Md. Abdul Aziz
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Abstract

Recently, carbon neutrality has been promoted as a potentially practical solution to global CO2 emissions and increasing energy-consumption challenges. Many attempts have been made to remove CO2 from the environment to address climate change and rising sea levels owing to anthropogenic CO2 emissions. Herein, membrane technology is proposed as a suitable solution for carbon neutrality. This review aims to comprehensively evaluate the currently available scientific research on membranes for carbon capture, focusing on innovative microporous material membranes used for CO2 separation and considering their material, chemical, and physical characteristics and permeability factors. Membranes from such materials comprise metal-organic frameworks, zeolites, silica, porous organic frameworks, and microporous polymers. The critical obstacles related to membrane design, growth, and CO2 capture and usage processes are summarized to establish novel membranes and strategies and accelerate their scaleup.

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碳中性的微孔和纳米多孔膜平台:膜气体分离的前景。
最近,碳中和作为解决全球二氧化碳排放和日益增长的能源消耗挑战的一个潜在可行的解决方案得到了推广。为解决人为二氧化碳排放造成的气候变化和海平面上升问题,人们已尝试从环境中去除二氧化碳。在此,我们提出膜技术作为实现碳中和的合适解决方案。本综述旨在全面评估目前有关碳捕获膜的科学研究,重点关注用于二氧化碳分离的创新微孔材料膜,并考虑其材料、化学和物理特性以及渗透因素。由此类材料制成的膜包括金属有机框架、沸石、二氧化硅、多孔有机框架和微孔聚合物。总结了与膜设计、生长、二氧化碳捕获和利用过程有关的关键障碍,以建立新型膜和战略,并加速其规模化。
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来源期刊
Chemical record
Chemical record 化学-化学综合
CiteScore
11.00
自引率
3.00%
发文量
188
审稿时长
>12 weeks
期刊介绍: The Chemical Record (TCR) is a "highlights" journal publishing timely and critical overviews of new developments at the cutting edge of chemistry of interest to a wide audience of chemists (2013 journal impact factor: 5.577). The scope of published reviews includes all areas related to physical chemistry, analytical chemistry, inorganic chemistry, organic chemistry, polymer chemistry, materials chemistry, bioorganic chemistry, biochemistry, biotechnology and medicinal chemistry as well as interdisciplinary fields. TCR provides carefully selected highlight papers by leading researchers that introduce the author''s own experimental and theoretical results in a framework designed to establish perspectives with earlier and contemporary work and provide a critical review of the present state of the subject. The articles are intended to present concise evaluations of current trends in chemistry research to help chemists gain useful insights into fields outside their specialization and provide experts with summaries of recent key developments.
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