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Usp. Khim., 2009, Volume 78, Issue 1, Pages 56–79 (Mi rcr149)  

This article is cited in 18 scientific papers (total in 18 papers)

Sulfonated polynaphthylimides as proton-conducting membranes for fuel cells

A. L. Rusanova, E. G. Bulychevaa, M. G. Bugaenkoa, V. Yu. Voytekunasb, M. J. Abadieb

a A. N. Nesmeyanov Institute of Organoelement Compounds of the Russian Academy of Sciences, Moscow
b University of Montpellier 2

Abstract: The main achievements in the field of synthesis of sulfonated polynaphthylimides and their precursors, namely, sulfonated aromatic diamines, are analysed. The relationship between the structure of sulfonated polynaphthylimides and their physicochemical characteristics such as chemical and thermal stability, moisture uptake, ion-exchange capacity and proton conductivity is studied. The prospects of using polynaphthylimides containing pendant sulfo groups for the development of proton-conducting polymeric electrolyte membranes for fuel cells are demonstrated.

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English version:
Russian Chemical Reviews, 2009, 78:1, 53–75

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Document Type: Article
Received: 25.06.2008

Citation: A. L. Rusanov, E. G. Bulycheva, M. G. Bugaenko, V. Yu. Voytekunas, M. J. Abadie, “Sulfonated polynaphthylimides as proton-conducting membranes for fuel cells”, Usp. Khim., 78:1 (2009), 56–79; Russian Chem. Reviews, 78:1 (2009), 53–75

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    This publication is cited in the following articles:
    1. A. L. Rusanov, E. G. Bulycheva, M. G. Bugaenko, V. Yu. Voytekunas, M. J. M. Abadie, “ChemInform Abstract: Sulfonated Polynaphthylimides as Proton-Conducting Membranes for Fuel Cells”, ChemInform, 40:29 (2009)  crossref
    2. Rusanov A.L., Komarova L.G., Bulycheva E.G., Bugaenko M.G., Belomoina N.M., “New Sulfonated Polyethers and Polynaphthylimides Based on Tnt Derivatives”, High Perform. Polym., 21:5 (2009), 508–521  crossref  isi  scopus
    3. Lebedeva O.V., Pozhidaev Yu.N., Shaglaeva N.S., Pozdnyakov A.S., Bochkareva S.S., “Polyelectrolytes Based on Nitrogenous Bases”, Theor. Found. Chem. Eng., 44:5 (2010), 786–790  crossref  mathscinet  isi  elib  scopus
    4. Ivanchev S.S. Myakin S.V., “Polymer Membranes for Fuel Cells: Achievements and Problems”, Carbon Nanomaterials in Clean Energy Hydrogen Systems - II, NATO Sci. Peace Secur. Ser. C- Environ. Secur., ed. Zaginaichenko S. Schur D. Skorokhod V. Veziroglu A. Ibrahimoglu B., 2010, 245–267  crossref  isi  scopus
    5. Ivanchev S.S. Myakin S.V., “Polymer Membranes For Fuel Cells: Manufacture, Structure, Modification, Properties”, Russ. Chem. Rev., 79:2 (2010), 101–117  mathnet  crossref  isi  elib  scopus
    6. Sheng-Huei Hsiao, Yi-Ruei Kung, “Synthesis and properties of new aromatic polyimides containing redox-active anthraquinone moieties”, Polym. Int, 2012, n/a  crossref  isi  scopus
    7. M. G. Bugaenko, A. L. Rusanov, E. G. Bulycheva, S. A. Shevelev, M. D. Dutov, “A new method for the synthesis of sulfonated polynaphthylimides”, Polym. Sci. Ser. B, 55:7-8 (2013), 478  crossref  isi  elib  scopus
    8. N.I.. Giricheva, G.V.. Girichev, Marwan Dakkouri, S.N.. Ivanov, V.M.. Petrov, “Molecular structure and barriers to internal rotation of α-naphthalenesulfonyl chloride: a study by gas-phase electron diffraction and quantum chemical calculations”, Struct Chem, 2013  crossref  isi  scopus
    9. Volkov V.I. Marinin A.A., “Nmr Methods For Studying Ion and Molecular Transport in Polymer Electrolytes”, Russ. Chem. Rev., 82:3 (2013), 248–272  mathnet  crossref  isi  elib  scopus
    10. Istomin S.Ya. Antipov E.V., “Cathode Materials Based on Perovskite-Like Transition Metal Oxides For Intermediate Temperature Solid Oxide Fuel Cells”, Russ. Chem. Rev., 82:7 (2013), 686–700  mathnet  crossref  isi  elib  scopus
    11. Guofei Chen, Xueliang Pei, Haibing Wei, Lubo Xu, Xingzhong Fang, “Synthesis and characterization of sulfonated block copolyimides derived from 4,4'-sulfide-bis(naphthalic anhydride) for proton exchange membranes”, J. Appl. Polym. Sci, 2015, n/a  crossref  isi  scopus
    12. Sheng-Huei Hsiao, Jhe-Yong Lin, “Synthesis and electrochromic properties of novel aromatic fluorinated poly(ether-imide)s bearing anthraquinone units”, Journal of Fluorine Chemistry, 2015  crossref  isi  scopus
    13. D. A. Sapozhnikov, Ya. S. Vygodskii, “Achievements in polycondensation and condensation polymers”, Polym. Sci. Ser. B, 57:4 (2015), 275  crossref  isi  elib  scopus
    14. Giricheva N.I., Girichev G.V., Petrov V.M., “Structural dependence of the fragmentation of naphthalenesulfonyl halide and naphthalenesulfonamide molecules under electron ionization”, J. Struct. Chem., 57:1 (2016), 97–103  crossref  isi  scopus
    15. Hsiao Sh.-H., Lin K.-H., “Synthesis and Properties of Electroactive Aromatic Polyimides With Methyl- Or Trifluoromethyl-Protecting Triphenylamine Units”, High Perform. Polym., 29:5 (2017), 544–555  crossref  isi  scopus
    16. Hsiao Sh.-H., Hsiao Y.-H., “Synthesis and Electrochemical Properties of New Redox-Active Polyimides With (1-Piperidinyl)Triphenylamine Moieties”, High Perform. Polym., 29:4 (2017), 431–440  crossref  isi  scopus
    17. Hsiao Sh.-H., Wu Ch.-N., “Synthesis and Properties of Redox-Active Polyimides With 3,5-Bis(Trifluoromethyl)- Or 3,5-Dimethyl-Substituted Triphenylamine Groups”, Polym.-Plast. Technol. Eng., 56:12 (2017), 1274–1285  crossref  isi  scopus
    18. Hsiao Sh.-H., Liao W.-K., Liou G.-Sh., “A Comparative Study of Redox-Active, Ambipolar Electrochromic Triphenylamine-Based Polyimides Prepared By Electrochemical Polymerization and Conventional Polycondensation Methods”, Polym. Chem., 9:2 (2018), 236–248  crossref  isi  scopus
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