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    Highly Efficient and Durable Ammonia Electrolysis Cell Using Zirfon Separator

    New search for: Shin, Haeyong
    New search for: Jung, Sang‐Mun
    New search for: Lim, Young Jin
    New search for: Yim, O‐Jung
    New search for: Lee, Byung‐Jo
    New search for: Kim, Kyu‐Su
    New search for: Baek, In‐Ho
    New search for: Baek, Jinwoo
    New search for: Lee, Jinhyeon
    New search for: Kim, Yong‐Tae

    Most studies on ammonia electrolysis have focused on anion exchange membranes (AEMs), which face limitations in operating conditions, such as pH and ammonia concentration. This study introduces a novel concept of an ammonia electrolysis cell (AEC) utilizing a Zirfon separator capable of operating under high pH and ammonia concentrations. The Zirfon‐based AECs achieve a peak current density of 915 mA cm−2, representing the highest reported value in AEC literature. Additionally, the Zirfon separator exhibits less conductivity degradation than AEMs during cycling tests (Zirfon 14.1%, AEMs 30.2%), demonstrating superior durability of the Zirfon‐based AEC.

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    Highly Efficient and Durable Ammonia Electrolysis Cell Using Zirfon Separator

    New search for: Shin, Haeyong
    New search for: Jung, Sang‐Mun
    New search for: Lim, Young Jin
    New search for: Yim, O‐Jung
    New search for: Lee, Byung‐Jo
    New search for: Kim, Kyu‐Su
    New search for: Baek, In‐Ho
    New search for: Baek, Jinwoo
    New search for: Lee, Jinhyeon
    New search for: Kim, Yong‐Tae

    Most studies on ammonia electrolysis have focused on anion exchange membranes (AEMs), which face limitations in operating conditions, such as pH and ammonia concentration. This study introduces a novel concept of an ammonia electrolysis cell (AEC) utilizing a Zirfon separator capable of operating under high pH and ammonia concentrations. The Zirfon‐based AECs achieve a peak current density of 915 mA cm−2, representing the highest reported value in AEC literature. Additionally, the Zirfon separator exhibits less conductivity degradation than AEMs during cycling tests (Zirfon 14.1%, AEMs 30.2%), demonstrating superior durability of the Zirfon‐based AEC.

    Access

    Download

    Highly Efficient and Durable Ammonia Electrolysis Cell Using Zirfon Separator

    New search for: Shin, Haeyong
    New search for: Jung, Sang‐Mun
    New search for: Lim, Young Jin
    New search for: Yim, O‐Jung
    New search for: Lee, Byung‐Jo
    New search for: Kim, Kyu‐Su
    New search for: Baek, In‐Ho
    New search for: Baek, Jinwoo
    New search for: Lee, Jinhyeon
    New search for: Kim, Yong‐Tae

    Most studies on ammonia electrolysis have focused on anion exchange membranes (AEMs), which face limitations in operating conditions, such as pH and ammonia concentration. This study introduces a novel concept of an ammonia electrolysis cell (AEC) utilizing a Zirfon separator capable of operating under high pH and ammonia concentrations. The Zirfon‐based AECs achieve a peak current density of 915 mA cm−2, representing the highest reported value in AEC literature. Additionally, the Zirfon separator exhibits less conductivity degradation than AEMs during cycling tests (Zirfon 14.1%, AEMs 30.2%), demonstrating superior durability of the Zirfon‐based AEC.

    Access

    Download

    Access

    Download

    Page navigation

    Document information
    Similar titles

    Export, share and cite

    Document information
    Title:

    Highly Efficient and Durable Ammonia Electrolysis Cell Using Zirfon Separator

    Contributors:

    Shin, Haeyong (author) / Jung, Sang‐Mun (author) / Lim, Young Jin (author) / Yim, O‐Jung (author) / Lee, Byung‐Jo (author) / Kim, Kyu‐Su (author) / Baek, In‐Ho (author) / Baek, Jinwoo (author) / Lee, Jinhyeon (author) / Kim, Yong‐Tae (author)

    Published in:

    Advanced Science ; 12

    Publication date:

    2025-03-01

    Size:

    9 pages

    ISSN:

    2198-3844

    DOI:

    https://doi.org/10.1002/advs.202500579

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    English

    Keywords:

    ammonia , ammonia electrolysis cell , ion conductivity , operating conditions , zirfon

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