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    High-Selectivity Polysiloxane Membranes for Gases and Liquids Separation (A Review)

    New search for: Grushevenko, E. A.
    New search for: Borisov, I. L.
    New search for: Volkov, A. V.

    The most promising approaches to making polysiloxane-based membranes more selective are considered. These approaches can be subdivided into three groups: (1) development of new membrane materials by copolymerization, (2) modification of the polysiloxane chain (in the backbone and pendant chains), and (3) development of mixed matrix membranes. All the three approaches are subjected to a critical analysis, and conclusions are made on the prospects for the development of high-selectivity materials and high-performance membranes based on them. The data are presented from the viewpoint of applied aspects of polysiloxane-based membranes.

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    High-Selectivity Polysiloxane Membranes for Gases and Liquids Separation (A Review)

    New search for: Grushevenko, E. A.
    New search for: Borisov, I. L.
    New search for: Volkov, A. V.

    The most promising approaches to making polysiloxane-based membranes more selective are considered. These approaches can be subdivided into three groups: (1) development of new membrane materials by copolymerization, (2) modification of the polysiloxane chain (in the backbone and pendant chains), and (3) development of mixed matrix membranes. All the three approaches are subjected to a critical analysis, and conclusions are made on the prospects for the development of high-selectivity materials and high-performance membranes based on them. The data are presented from the viewpoint of applied aspects of polysiloxane-based membranes.

    Access

    Download

    High-Selectivity Polysiloxane Membranes for Gases and Liquids Separation (A Review)

    New search for: Grushevenko, E. A.
    New search for: Borisov, I. L.
    New search for: Volkov, A. V.

    The most promising approaches to making polysiloxane-based membranes more selective are considered. These approaches can be subdivided into three groups: (1) development of new membrane materials by copolymerization, (2) modification of the polysiloxane chain (in the backbone and pendant chains), and (3) development of mixed matrix membranes. All the three approaches are subjected to a critical analysis, and conclusions are made on the prospects for the development of high-selectivity materials and high-performance membranes based on them. The data are presented from the viewpoint of applied aspects of polysiloxane-based membranes.

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    Title:

    High-Selectivity Polysiloxane Membranes for Gases and Liquids Separation (A Review)

    Additional title:

    Pet. Chem.

    Contributors:

    Grushevenko, E. A. (author) / Borisov, I. L. (author) / Volkov, A. V. (author)

    Published in:

    Petroleum Chemistry ; 61 ; 959-976

    Publication date:

    2021-09-01

    Size:

    18 pages

    ISSN:

    1555-6239 , 0965-5441

    DOI:

    https://doi.org/10.1134/S0965544121090103

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    English

    Keywords:

    silicone rubbers , polydimethylsiloxane , membranes , membrane technology , pervaporation , gas separation , vapor separation , polyorganosiloxanes Chemistry , Industrial Chemistry/Chemical Engineering , Chemistry and Materials Science

    Licence:

    http://creativecommons.org/licenses/by/4.0/

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