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      Effect of process parameters over carbon-based ZIF-62 nano-rooted membrane for environmental pollutants separation

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          Advances in high permeability polymer-based membrane materials for CO2 separations

          This review summarizes the major advances since 2012 in highly permeable and CO 2 -selective polymer-based membrane materials. Membrane processes have evolved as a competitive approach in CO 2 separations compared with absorption and adsorption processes, due to their inherent attributes such as energy-saving and continuous operation. High permeability membrane materials are crucial to efficient membrane processes. Among existing membrane materials for CO 2 separations, polymer-based materials have some intrinsic advantages such as good processability, low price and a readily available variety of materials. In recent years, enormous research effort has been devoted to the use of membrane technology for CO 2 separations from diverse sources such as flue gas (mainly N 2 ), natural gas (mainly CH 4 ) and syngas (mainly H 2 ). Polymer-based membrane materials occupy the vast majority of all the membrane materials. For large-scale CO 2 separations, polymer-based membrane materials with high CO 2 permeability and good CO 2 /gas selectivity are required. In 2012, we published a Perspective review in Energy & Environmental Science on high permeability polymeric membrane materials for CO 2 separations. Since then, more rapid progress has been made and the research focus has changed significantly. This review summarises the advances since 2012 on high permeability polymer-based membrane materials for CO 2 separations. The major features of this review are reflected in the following three aspects: (1) we cover polymer-based membrane materials instead of purely polymeric membrane materials, which encompass both polymeric membranes and polymer–inorganic hybrid membranes. (2) CO 2 facilitated transport membrane materials are presented. (3) Biomimetism and bioinspired membrane concepts are incorporated. A number of representative examples of recent advances in high permeability polymer-based membrane materials is highlighted with some critical analysis, followed by a brief perspective on future research and development directions.
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            Cyanazine herbicide monitoring as a hazardous substance by a DNA nanostructure biosensor

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              A MOF Glass Membrane for Gas Separation

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                Author and article information

                Contributors
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                Journal
                Chemosphere
                Chemosphere
                Elsevier BV
                00456535
                March 2022
                March 2022
                : 291
                : 133006
                Article
                10.1016/j.chemosphere.2021.133006
                34813846
                bc661a4b-8e67-4e0d-b165-08432ab065f1
                © 2022

                https://www.elsevier.com/tdm/userlicense/1.0/

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