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首页> 外文期刊>Materials Horizons >Nanoarchitectured metal-organic framework/polypyrrole hybrids for brackish water desalination using capacitive deionization
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Nanoarchitectured metal-organic framework/polypyrrole hybrids for brackish water desalination using capacitive deionization

机译:纳米建筑金属有机框架/聚吡咯混合用电容去离子的咸水脱盐

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摘要

New families of materials that may potentially replace dominant carbon electrodes have emerged as a major research hotspot in the field of capacitive deionization (CDI). Here, we report a metal-organic framework (MOF)/polypyrrole (PPy) hybrid, in which conductive PPy nanotubes that are running through each MOF particle have the potential to increase the overall bulk electrical conductivity, thus promoting such a system as a good CDI electrode material. Consequently, the MOF/PPy hybrid shows a high desalination capacity of 11.34 mg g(-1), which is amongst those of state-of-the-art CDI electrodes. Moreover, the MOF/PPy hybrid also shows a superior desalination performance for brackish water and good cycling stability, far exceeding typical carbon-based benchmarks. This is the first example of CDI electrodes derived from direct MOF-based materials, highlighting the potential of these hybrid systems as promising materials beyond traditional carbon electrodes.
机译:可能替代主导碳电极的新材料家庭作为电容去离子(CDI)领域的主要研究热点。 在这里,我们报告了金属有机框架(MOF)/聚吡咯(PPY)杂种(PPY)杂种,其中通过每个MOF颗粒运行的导电PPY纳米管具有增加整体散装电导率的可能性,从而促进这样的系统 CDI电极材料。 因此,MOF / PPY杂交机显示出11.34mg G(-1)的高脱盐容量,其是最先进的CDI电极。 此外,MOF / PPY杂交机也显示出浅水脱盐性能,可用于薄薄的水和良好的循环稳定性,远远超过典型的碳基基准。 这是从基于直接的MOF基材料衍生的CDI电极的第一示例,突出了这些混合系统的潜力作为超出传统碳电极的有希望的材料。

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  • 来源
    《Materials Horizons》 |2019年第7期|共5页
  • 作者

    Wang Ziming; Xu Xingtao; Kim Jeonghun; Malgras Victor; Mo Ran; Li Chenglong; Lin Yuzhu; Tan Haibo; Tang Jing; Pan Likun; Bando Yoshio; Yang Tao; Yamauchi Yusuke;

  • 作者单位

    Hohai Univ State Key Lab Hydrol Water Resources &

    Hydraul En 1 N Xikang Rd Nanjing 210098 Jiangsu Peoples R China;

    Hohai Univ State Key Lab Hydrol Water Resources &

    Hydraul En 1 N Xikang Rd Nanjing 210098 Jiangsu Peoples R China;

    Qingdao Univ Sci &

    Technol Key Lab Ecochem Engn Coll Chem &

    Mol Engn Qingdao 266042 Shandong Peoples R China;

    NIMS Int Ctr Mat Nanoarchitecton WPI MANA 1-1 Namiki Tsukuba Ibaraki 3050044 Japan;

    Hohai Univ State Key Lab Hydrol Water Resources &

    Hydraul En 1 N Xikang Rd Nanjing 210098 Jiangsu Peoples R China;

    Hohai Univ State Key Lab Hydrol Water Resources &

    Hydraul En 1 N Xikang Rd Nanjing 210098 Jiangsu Peoples R China;

    Hohai Univ State Key Lab Hydrol Water Resources &

    Hydraul En 1 N Xikang Rd Nanjing 210098 Jiangsu Peoples R China;

    NIMS Int Ctr Mat Nanoarchitecton WPI MANA 1-1 Namiki Tsukuba Ibaraki 3050044 Japan;

    Univ Queensland Sch Chem Engn Brisbane Qld 4072 Australia;

    East China Normal Univ Sch Phys &

    Mat Sci Shanghai Key Lab Magnet Resonance 3663 N Zhongshan Rd Shanghai 200062 Peoples R China;

    Univ Queensland Sch Chem Engn Brisbane Qld 4072 Australia;

    Hohai Univ State Key Lab Hydrol Water Resources &

    Hydraul En 1 N Xikang Rd Nanjing 210098 Jiangsu Peoples R China;

    Qingdao Univ Sci &

    Technol Key Lab Ecochem Engn Coll Chem &

    Mol Engn Qingdao 266042 Shandong Peoples R China;

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  • 正文语种 eng
  • 中图分类 工程材料学;
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