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    Ce0.9Pr0.1O2‐δ‐Pr0.6Ca0.4MnO3‐δ dual‐phase membranes: oxygen permeability and stability

    New search for: Wang, Shu
    New search for: Wang, Xiaopeng
    New search for: Huang, Yanhang
    New search for: Zeng, Lingyong
    New search for: He, Yiyi
    New search for: Boubeche, Mebrouka
    New search for: Luo, Huixia

    Previously unreported Ce0.9Pr0.1O2‐δ‐Pr0.6Ca0.4MnO3‐δ (CPO‐PCMO) dual‐phase membrane is designed and successfully fabricated. The crystal structure, surface morphology, stability, and oxygen permeability is systematically investigated. The XRD results reveal that CPO‐PCMO dual‐phase membranes are made up of cubic fluorite phase and orthorhombic perovskite phase, which exhibit excellent stability at elevated temperature under air atmospheres as well as various low oxygen conditions such as Ar or CO2 atmospheres. In addition, no obvious holes, cracks, and impurities are observed. The obtained CPO‐PCMO membrane with 0.8 mm thickness exhibits comparable oxygen permeability with a flux of 0.23 mL min−1cm−2 under air/He gradient at 1000 °C and stably works over 300 min without obvious deterioration under air/CO2 gradient, suggesting it has good CO2 stability.

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    Ce0.9Pr0.1O2‐δ‐Pr0.6Ca0.4MnO3‐δ dual‐phase membranes: oxygen permeability and stability

    New search for: Wang, Shu
    New search for: Wang, Xiaopeng
    New search for: Huang, Yanhang
    New search for: Zeng, Lingyong
    New search for: He, Yiyi
    New search for: Boubeche, Mebrouka
    New search for: Luo, Huixia

    Previously unreported Ce0.9Pr0.1O2‐δ‐Pr0.6Ca0.4MnO3‐δ (CPO‐PCMO) dual‐phase membrane is designed and successfully fabricated. The crystal structure, surface morphology, stability, and oxygen permeability is systematically investigated. The XRD results reveal that CPO‐PCMO dual‐phase membranes are made up of cubic fluorite phase and orthorhombic perovskite phase, which exhibit excellent stability at elevated temperature under air atmospheres as well as various low oxygen conditions such as Ar or CO2 atmospheres. In addition, no obvious holes, cracks, and impurities are observed. The obtained CPO‐PCMO membrane with 0.8 mm thickness exhibits comparable oxygen permeability with a flux of 0.23 mL min−1cm−2 under air/He gradient at 1000 °C and stably works over 300 min without obvious deterioration under air/CO2 gradient, suggesting it has good CO2 stability.

    Access

    Check access
    Check availability in my library
    Order at Subito €

    Ce0.9Pr0.1O2‐δ‐Pr0.6Ca0.4MnO3‐δ dual‐phase membranes: oxygen permeability and stability

    New search for: Wang, Shu
    New search for: Wang, Xiaopeng
    New search for: Huang, Yanhang
    New search for: Zeng, Lingyong
    New search for: He, Yiyi
    New search for: Boubeche, Mebrouka
    New search for: Luo, Huixia

    Previously unreported Ce0.9Pr0.1O2‐δ‐Pr0.6Ca0.4MnO3‐δ (CPO‐PCMO) dual‐phase membrane is designed and successfully fabricated. The crystal structure, surface morphology, stability, and oxygen permeability is systematically investigated. The XRD results reveal that CPO‐PCMO dual‐phase membranes are made up of cubic fluorite phase and orthorhombic perovskite phase, which exhibit excellent stability at elevated temperature under air atmospheres as well as various low oxygen conditions such as Ar or CO2 atmospheres. In addition, no obvious holes, cracks, and impurities are observed. The obtained CPO‐PCMO membrane with 0.8 mm thickness exhibits comparable oxygen permeability with a flux of 0.23 mL min−1cm−2 under air/He gradient at 1000 °C and stably works over 300 min without obvious deterioration under air/CO2 gradient, suggesting it has good CO2 stability.

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    Title:

    Ce0.9Pr0.1O2‐δ‐Pr0.6Ca0.4MnO3‐δ dual‐phase membranes: oxygen permeability and stability

    Contributors:

    Wang, Shu (author) / Wang, Xiaopeng (author) / Huang, Yanhang (author) / Zeng, Lingyong (author) / He, Yiyi (author) / Boubeche, Mebrouka (author) / Luo, Huixia (author)

    Published in:

    Chemie Ingenieur Technik ; 94 ; 111-118

    Publication date:

    2022-01-01

    Size:

    8 pages

    ISSN:

    0009-286X , 1522-2640

    DOI:

    https://doi.org/10.1002/cite.202100012

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    English

    Keywords:

    Dual‐phase membrane , Oxygen permeation , Pechini one‐pot synthesis

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