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通过将SiO纳米颗粒掺入新型交联聚苯并咪唑网络构建高性能高温质子交换膜

Construction of High-Performance, High-Temperature Proton Exchange Membranes through Incorporating SiO Nanoparticles into Novel Cross-linked Polybenzimidazole Networks.

作者信息

Li Xiaobai, Ma Hongwei, Wang Peng, Liu Zhenchao, Peng Jinwu, Hu Wei, Jiang Zhenhua, Liu Baijun

机构信息

Key Laboratory of High Performance Plastics, Ministry of Education. National & Local Joint Engineering Laboratory for Synthesis Technology of High Performance Polymer. College of Chemistry , Jilin University , 2699 Qianjin Street , Changchun 130012 , P. R. China.

College of Chemical Engineering , Changchun University of Technology , 2055 Yan'an Street , Changchun 130012 , P.R. China.

出版信息

ACS Appl Mater Interfaces. 2019 Aug 28;11(34):30735-30746. doi: 10.1021/acsami.9b06808. Epub 2019 Aug 14.

DOI:10.1021/acsami.9b06808
PMID:31369711
Abstract

The practical applications of phosphoric acid-doped polybenzimidazole (PA-PBI) as high-temperature proton exchange membranes (HT-PEMs) are mainly limited by their poor dimensional-mechanical stability at high acid doping levels (ADLs) and the leaching of PA from membranes during fuel cell operation. In this work, to overcome these issues, we fabricated novel cross-linked PBI networks with additional imidazole groups by employing a newly synthesized bibenzimidazole-containing dichloro compound as cross-linker and an arylether-type Ph-PBI as matrix. Ph-PBI featured by good solubility under high molecular weight offers satisfactory film-forming ability and mechanical strength using for the matrix. Importantly, the additional imidazole moieties in BIM-2Cl endow the cross-linked PBI membranes improved dimensional-mechanical stability with simultaneously enhanced ADLs and proton conductivity. Furthermore, superior acid retention capability is obtained by incorporating porous polyhydroxy SiO nanoparticles into these cross-linked networks. As a result, the SiO/cross-linked PBI composite membranes are suitable to manufacture membrane electrode assemblies (MEAs), and an excellent H/O cell performance with a peak power density of 497 mW cm at 160 °C under anhydrous conditions can be achieved.

摘要

磷酸掺杂聚苯并咪唑(PA-PBI)作为高温质子交换膜(HT-PEMs)的实际应用主要受到其在高酸掺杂水平(ADLs)下较差的尺寸机械稳定性以及在燃料电池运行过程中PA从膜中浸出的限制。在这项工作中,为了克服这些问题,我们通过使用新合成的含联苯并咪唑的二氯化合物作为交联剂和芳基醚型Ph-PBI作为基质,制备了具有额外咪唑基团的新型交联PBI网络。Ph-PBI在高分子量下具有良好的溶解性,用于基质时具有令人满意的成膜能力和机械强度。重要的是,BIM-2Cl中的额外咪唑部分赋予交联PBI膜改善的尺寸机械稳定性,同时提高了ADLs和质子传导率。此外,通过将多孔聚羟基SiO纳米颗粒掺入这些交联网络中,获得了优异的酸保留能力。结果,SiO/交联PBI复合膜适用于制造膜电极组件(MEA),并且在无水条件下于160°C时可实现峰值功率密度为497 mW/cm²的优异氢氧燃料电池性能。

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