Ex-situ NMR and Raman studies of H3PO4 and H2O uptake of polybenzimidazole membranes for PEMFC

机译：H3PO4和H2O对PEMFC聚苯哌咪唑膜的H3PO4和H2O吸收的抗原位NMR和Raman研究

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Polybenzimidazole (PBI) doped with H3PO4 is the most commonly used membrane material for high-temperature polymer fuel cells. Despite this fact, only less is known on the chemical equilibria of all species inside the membrane as a function of the composition of the ternary system PBI - H3PO4 - H2O. This includes details on the proton transfer processes, on the dominant conduction mechanisms and on the condensation equilibria, leading to the formation of diphosphoric acid and higher homologues species. In this study Raman and NMR spectroscopy is used to investigate the chemical interactions between H3PO4, H2O and PBI vs. the H3PO4 doping level. We could obtain information on the H-bond formation between H3PO4 and the polymer chains, on tautomeric processes as well as on the presence of not directly bounded H3PO4 at high doping levels. Investigations were performed with uncrosslinked and crosslinked m-PBI and AB-PBI

机译：掺杂有H3PO4的聚苯和咪唑（PBI）是最常用的高温聚合物燃料电池的膜材料。尽管如此，只有薄膜内所有物种的化学均衡所知的少，作为三元体系PBI - H3PO4 - H2O的组成的函数。这包括关于质子传递工艺的细节，在主导传导机制和冷凝均衡上，导致碘磷酸和更高的同源物种的形成。在该研究中，R拉曼和NMR光谱用于研究H3PO4，H2O和PBI与H3PO4掺杂水平之间的化学相互作用。我们可以获得关于H3PO4和聚合物链之间的H键形成的信息，在互变异构体中，以及在高掺杂水平下不直接有界H3PO4的存在。用未交联和交联的M-PBI和AB-PBI进行研究

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《European Fuel cell Forum;European PEFC and H2 Forum》|2013年||共7页
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Fosca Conti; Anne Majerus; Sabine Willbold;
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中图分类化学电源、电池、燃料电池;
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1. Polysulfonated Fluoro-oxyPBI Membranes for PEMFCs: An Efficient Strategy to Achieve Good Fuel Cell Performances with Low H3PO4 Doping Levels [J] . Davide Carlo Villa, Simone Angioni, Sonia Dal Barco, Advanced energy materials . 2014,第11期

机译：用于PEMFC的多磺化Fluoro-oxyPBI膜：一种有效的策略，以实现低H3PO4掺杂水平的良好燃料电池性能
2. Polysulfonation of PBI-based membranes for HT-PEMFCs: a possible way to maintain high proton transport at a low H3PO4 doping level [J] . Simone Angioni, Davide Carlo Villa, Sonia Dal Barco Journal of Materials Chemistry, A. Materials for energy and sustainability . 2014,第3期

机译：用于HT-PEMFC的PBI基膜的多磺化：在低H3PO4掺杂水平下保持高质子传输的一种可能方法
3. Non-planar backbone structure polybenzimidazole membranes with excellent solubility, high proton conductivity, and better anti-oxidative for HT-PEMFCs [J] . Sun Guohua, Han Kefei, Yu Jinghua, RSC Advances . 2016,第93期

机译：非平面骨干结构聚苯旁咪唑膜具有优异的溶解度，高质子电导率，以及HT-PEMFC的更好的抗氧化剂
4. Ex-situ NMR and Raman studies of H3PO4 and H2O uptake of polybenzimidazole membranes for PEMFC [C] . Fosca Conti, Anne Majerus, Sabine Willbold European Fuel cell Forum . 2013

机译：H3PO4的ex-situ NMR和Raman研究和PEMFC聚苯旁咪唑膜的H2O吸收
5. Polybenzimidazoles (PBI) Membranes and Platinum - Cobalt/Carbon (Pt-Co/C) Alloy Catalysts for High Temperature Proton Exchange Membrane Fuel Cells (HT-PEMFCs). [D] . Ghatty, Sundara L. 2010

机译：用于高温质子交换膜燃料电池（HT-PEMFC）的聚苯并咪唑（PBI）膜和铂-钴/碳（Pt-Co / C）合金催化剂。
6. Gypsum (CaSO4·2H2O) Scaling on Polybenzimidazole and Cellulose Acetate Hollow Fiber Membranes under Forward Osmosis [O] . Si Cong Chen, Jincai Su, Feng-Jiang Fu, 2013

机译：正渗透作用下聚苯并咪唑和醋酸纤维素中空纤维膜的石膏（CaSO4·2H2O）结垢
7. Polybenzimidazole (PBI) Functionalized Nanographene as Highly Stable Catalyst Support for Polymer Electrolyte Membrane Fuel Cells (PEMFCs) [O] . Xin, Le, Yang, Fan, Qiu, Yang, 2016

机译：聚苯并咪唑（PBI）官能化的纳米石墨烯作为聚合物电解质膜燃料电池（PEMFC）的高度稳定的催化剂载体
8. Model Compound Studies of Rigid Rod Aromatic Heterocyclic Polymer Systems, the X-Ray Crystal Structure of 2,6-Diphenylbenzo (1,2-d; 5,4-d') Diimidazole Tetrahydrate, C2OH14N4. 4H2O, a Model System for the Study of Polymer-Water Interaction in Polybenzimidazoles. [R] . Hunsaker, M., Adams, W. W., Fratini, A. V. 1983

机译：刚性棒芳族杂环聚合物体系的模型化合物研究，2,6-二苯基苯并（1,2-d; 5,4-d'）二咪唑四水合物，C 2 OH 14 N 4的X射线晶体结构。 4H2O，聚苯并咪唑中聚合物 - 水相互作用研究的模型系统。

Ex-situ NMR and Raman studies of H3PO4 and H2O uptake of polybenzimidazole membranes for PEMFC

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