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    Flexible ZnO/PANI/nonwoven nanocomposite based high-sensitive NH3 gas sensor via vapor phase polymerization method

    New search for: Ying Guan
    New search for: Chuang Wang
    New search for: Houyong Yu
    New search for: Zhuanyong Zou
    New search for: Ying Zhou
    New search for: Guang Cao
    New search for: Juming Yao

    A new synthetic method to flexible sensor towards NH3 with response magnitude as high as 4300% was based on vapor phase polymerization (VPP), where zinc oxide (ZnO) sheets were exposed to polyaniline (PANI) vapors on the flexible nonwoven fabric substrate. A possible brick wall masonry assembly structure of ZnO and PANI on the surface of nonwoven fabric was provided, which also possessed excellent mechanical flexibility and thermostability. The response value of flexible ZnO/PANI/nonwoven sensor increased from 5% to 4300% with the NH3 concentration varied over a wide range (0.5–10 ppm) at room temperature. Flexible and conductive ZnO/PANI/nonwoven composite material has good potential applications as NH3 gas sensor in environment monitoring components and wearable flexible devices.

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    Flexible ZnO/PANI/nonwoven nanocomposite based high-sensitive NH3 gas sensor via vapor phase polymerization method

    New search for: Ying Guan
    New search for: Chuang Wang
    New search for: Houyong Yu
    New search for: Zhuanyong Zou
    New search for: Ying Zhou
    New search for: Guang Cao
    New search for: Juming Yao

    A new synthetic method to flexible sensor towards NH3 with response magnitude as high as 4300% was based on vapor phase polymerization (VPP), where zinc oxide (ZnO) sheets were exposed to polyaniline (PANI) vapors on the flexible nonwoven fabric substrate. A possible brick wall masonry assembly structure of ZnO and PANI on the surface of nonwoven fabric was provided, which also possessed excellent mechanical flexibility and thermostability. The response value of flexible ZnO/PANI/nonwoven sensor increased from 5% to 4300% with the NH3 concentration varied over a wide range (0.5–10 ppm) at room temperature. Flexible and conductive ZnO/PANI/nonwoven composite material has good potential applications as NH3 gas sensor in environment monitoring components and wearable flexible devices.

    Access

    Download

    Flexible ZnO/PANI/nonwoven nanocomposite based high-sensitive NH3 gas sensor via vapor phase polymerization method

    New search for: Ying Guan
    New search for: Chuang Wang
    New search for: Houyong Yu
    New search for: Zhuanyong Zou
    New search for: Ying Zhou
    New search for: Guang Cao
    New search for: Juming Yao

    A new synthetic method to flexible sensor towards NH3 with response magnitude as high as 4300% was based on vapor phase polymerization (VPP), where zinc oxide (ZnO) sheets were exposed to polyaniline (PANI) vapors on the flexible nonwoven fabric substrate. A possible brick wall masonry assembly structure of ZnO and PANI on the surface of nonwoven fabric was provided, which also possessed excellent mechanical flexibility and thermostability. The response value of flexible ZnO/PANI/nonwoven sensor increased from 5% to 4300% with the NH3 concentration varied over a wide range (0.5–10 ppm) at room temperature. Flexible and conductive ZnO/PANI/nonwoven composite material has good potential applications as NH3 gas sensor in environment monitoring components and wearable flexible devices.

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    Title:

    Flexible ZnO/PANI/nonwoven nanocomposite based high-sensitive NH3 gas sensor via vapor phase polymerization method

    Contributors:

    Ying Guan (author) / Chuang Wang (author) / Houyong Yu (author) / Zhuanyong Zou (author) / Ying Zhou (author) / Guang Cao (author) / Juming Yao (author)

    Published in:

    Materials Science for Energy Technologies, Vol 3, Iss , Pp 862-867 (2020)

    Publication date:

    2020

    ISSN:

    2589-2991

    DOI:

    https://doi.org/10.1016/j.mset.2020.10.011

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    Unknown

    Keywords:

    Zinc oxide , Polyaniline , Nonwoven , Ammonia , Gas sensor , Materials of engineering and construction. Mechanics of materials , TA401-492 , Energy conservation , TJ163.26-163.5

    Metadata by DOAJ is licensed under ​CC BY-SA 1.0

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