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    Carbon dioxide retention over montmorillonite–dendrimer materials

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    AbstractMicroporous organo-montmorillonites (organo-Mt) bearing weak base OH sites were prepared through montmorillonite intercalation with polyol dendrimers at different proportions (0.5, 1.0 and 3.0mass%). These materials turned out to be suitable for the reversible capture of carbon dioxide, inasmuch as high amount (0.5–2.5mmol/g organo-Mt) of CO2 can be retained, and easy regeneration can be achieved upon slight heating up to 100°C. The CO2 retention capacity (CRC) was correlated to the number of OH groups of the dendritic moiety, the dendrimer content and the specific surface area. Excessive dendrimer size and content appear to affect the CRC value, due to a decrease in both the specific surface area and number of accessible OH groups. The retention of larger amounts of CO2 than predicted by stoichiometry confirms that the OH groups interact with CO2 only through physical interactions.

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    Carbon dioxide retention over montmorillonite–dendrimer materials

    New search for: Azzouz, Abdelkrim
    New search for: Assaad, Elias
    New search for: Ursu, Alina-Violeta
    New search for: Sajin, Tudor
    New search for: Nistor, Denisa
    New search for: Roy, René

    AbstractMicroporous organo-montmorillonites (organo-Mt) bearing weak base OH sites were prepared through montmorillonite intercalation with polyol dendrimers at different proportions (0.5, 1.0 and 3.0mass%). These materials turned out to be suitable for the reversible capture of carbon dioxide, inasmuch as high amount (0.5–2.5mmol/g organo-Mt) of CO2 can be retained, and easy regeneration can be achieved upon slight heating up to 100°C. The CO2 retention capacity (CRC) was correlated to the number of OH groups of the dendritic moiety, the dendrimer content and the specific surface area. Excessive dendrimer size and content appear to affect the CRC value, due to a decrease in both the specific surface area and number of accessible OH groups. The retention of larger amounts of CO2 than predicted by stoichiometry confirms that the OH groups interact with CO2 only through physical interactions.

    Access

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    Carbon dioxide retention over montmorillonite–dendrimer materials

    New search for: Azzouz, Abdelkrim
    New search for: Assaad, Elias
    New search for: Ursu, Alina-Violeta
    New search for: Sajin, Tudor
    New search for: Nistor, Denisa
    New search for: Roy, René

    AbstractMicroporous organo-montmorillonites (organo-Mt) bearing weak base OH sites were prepared through montmorillonite intercalation with polyol dendrimers at different proportions (0.5, 1.0 and 3.0mass%). These materials turned out to be suitable for the reversible capture of carbon dioxide, inasmuch as high amount (0.5–2.5mmol/g organo-Mt) of CO2 can be retained, and easy regeneration can be achieved upon slight heating up to 100°C. The CO2 retention capacity (CRC) was correlated to the number of OH groups of the dendritic moiety, the dendrimer content and the specific surface area. Excessive dendrimer size and content appear to affect the CRC value, due to a decrease in both the specific surface area and number of accessible OH groups. The retention of larger amounts of CO2 than predicted by stoichiometry confirms that the OH groups interact with CO2 only through physical interactions.

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    Title:

    Carbon dioxide retention over montmorillonite–dendrimer materials

    Contributors:

    Azzouz, Abdelkrim (author) / Assaad, Elias (author) / Ursu, Alina-Violeta (author) / Sajin, Tudor (author) / Nistor, Denisa (author) / Roy, René (author)

    Published in:

    Applied Clay Science ; 48 ; 133-137

    Publication date:

    2009-11-18

    Size:

    5 pages

    ISSN:

    0169-1317

    DOI:

    https://doi.org/10.1016/j.clay.2009.11.021

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    English

    Keywords:

    Montmorillonite , Polyol dendrimers , Organo-montmorillonite , CO<inf>2</inf> retention , TPD

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