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首页> 外文期刊>Journal of Materials Chemistry, A. Materials for energy and sustainability >Ultra-thin quaternized polybenzimidazole anion exchange membranes with throughout OH- conducive highway networks for high-performance fuel cells
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Ultra-thin quaternized polybenzimidazole anion exchange membranes with throughout OH- conducive highway networks for high-performance fuel cells

机译:用于高性能燃料电池的优化高速公路网络的超薄季铵化聚苯咪唑阴离子交换膜

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摘要

A hydrophilic-hydrophobic microphase separation structure is essential for anion exchange membranes (AEMs) to balance ion conduction and mechanical strength. However, continuous hydrophobic microphase will inevitably become a barrier for ion conduction between dispersed hydrophilic ionic clusters. In this study, throughout ion conductive highway networks are constructed in quaternized polybenzimidazole (PBI) AEMs, in which OH- could break through the hydrophobic polymer backbone by forming dense hydrogen bond networks with pyridine nitrogen (-N?) in PBI repeating units, and a tri-cationic/non-cationic ether pendant side chain is proposed to greatly improve ionic aggregation that was still difficult to achieve in reported quaternized PBI membranes. The molecular dynamics simulation indicates comparable OH- coordination through ionic bonds in hydrophilic microphase and hydrogen bonds in the hydrophobic microphase. The as-prepared membranes exhibit excellent toughness to fabricate ultrathin self-supporting AEMs (10 mu m) with low ohmic resistance. H-2/O-2 fuel cells achieves a high peak power density of about 1162.3 mW cm(-2) at a large current density of 2749.5 mA cm(-2), which is the highest value among recently reported PBI-based AEMs and multi-cation side-chain type AEMs. The design of throughout conductive highway network makes the highly stable commercial PBI material one of the best candidates for AEMFCs.
机译:亲水-疏水微相分离结构对于阴离子交换膜(AEMs)平衡离子传导和机械强度至关重要。然而,连续的疏水微相将不可避免地成为分散的亲水性离子团簇之间离子传导的屏障。在这项研究中,在季铵化聚苯并咪唑(PBI)AEMs中构建了完整的离子导电公路网络,其中OH-可以通过与吡啶氮(-N?)形成致密的氢键网络来突破疏水性聚合物主链在PBI重复单元中,提出了一种三阳离子/非阳离子醚侧链,以极大地改善离子聚集,这在已报道的季铵化PBI膜中仍然难以实现。分子动力学模拟表明,亲水性微相中的离子键和疏水性微相中的氢键具有可比性。所制备的膜具有优异的韧性,可以制备具有低欧姆电阻的超薄自支撑AEM(10μm)。H-2/O-2燃料电池在2749.5 mA-cm(-2)的大电流密度下达到约1162.3 mW-cm(-2)的高峰值功率密度,这是最近报道的基于PBI的AEM和多阳离子侧链型AEM中的最高值。全导电公路网的设计使高度稳定的商用PBI材料成为AEMFC的最佳候选材料之一。

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    Wang Xiaozhou; Chen Wanting; Li Tiantian; Yan Xiaoming; Zhang Yang; Zhang Fan; Wu Xuemei; Pang Bo; Li Jiannan; He Gaohong;

  • 作者单位

    Dalian Univ Technol Sch Chem Engn Res &

    Dev Ctr Membrane Sci &

    Technol State Key Lab Fine Chem Dalian 116024 Peoples R China;

    Dalian Univ Technol Sch Chem Engn Res &

    Dev Ctr Membrane Sci &

    Technol State Key Lab Fine Chem Dalian 116024 Peoples R China;

    Dalian Univ Technol Sch Chem Engn Res &

    Dev Ctr Membrane Sci &

    Technol State Key Lab Fine Chem Dalian 116024 Peoples R China;

    Dalian Univ Technol Sch Chem Engn Res &

    Dev Ctr Membrane Sci &

    Technol State Key Lab Fine Chem Panjin 124221 Peoples R China;

    Dalian Univ Technol Sch Chem Engn Res &

    Dev Ctr Membrane Sci &

    Technol State Key Lab Fine Chem Dalian 116024 Peoples R China;

    Dalian Univ Technol Sch Chem Engn Res &

    Dev Ctr Membrane Sci &

    Technol State Key Lab Fine Chem Dalian 116024 Peoples R China;

    Dalian Univ Technol Sch Chem Engn Res &

    Dev Ctr Membrane Sci &

    Technol State Key Lab Fine Chem Dalian 116024 Peoples R China;

    Dalian Univ Technol Sch Chem Engn Res &

    Dev Ctr Membrane Sci &

    Technol State Key Lab Fine Chem Dalian 116024 Peoples R China;

    Dalian Univ Technol Sch Chem Engn Res &

    Dev Ctr Membrane Sci &

    Technol State Key Lab Fine Chem Dalian 116024 Peoples R China;

    Dalian Univ Technol Sch Chem Engn Res &

    Dev Ctr Membrane Sci &

    Technol State Key Lab Fine Chem Dalian 116024 Peoples R China;

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