Proton conducting membranes prepared by radiation grafting of styrene and various comonomers
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Sandor Balog | C. Bas | Alexander Wokaun | Lorenz Gubler | A. Wokaun | L. Gubler | L. Perrin | S. Balog | Kaewta Jetsrisuparb | Lara Perrin | C. Bas | Kaewta Jetsrisuparb | Corine Bas
[1] L. Gubler. Polymer Design Strategies for Radiation‐Grafted Fuel Cell Membranes , 2014 .
[2] A. Wokaun,et al. Radiation grafted membranes for fuel cells containing styrene sulfonic acid and nitrile comonomers , 2014 .
[3] A. Wokaun,et al. Study of nitrile-containing proton exchange membranes prepared by radiation grafting: Performance and degradation in the polymer electrolyte fuel cell , 2013 .
[4] U. Gasser,et al. Structure of the hydrophilic phase and its impact on the conductivity of graft copolymer ionomers at low hydration level , 2013 .
[5] H. R. Kunz,et al. Fuel cell perfluorinated sulfonic acid membrane degradation correlating accelerated stress testing and lifetime. , 2012, Chemical reviews.
[6] R. Rohani,et al. Synthesis of copolymer grafts containing sulfoalkyl and hydrophilic groups in polymer electrolyte membranes , 2012 .
[7] U. Gasser,et al. Structure of the ion-rich phase in DVB cross-linked graft-copolymer proton-exchange membranes , 2012 .
[8] U. Gasser,et al. Nano-scale morphology in graft copolymer proton-exchange membranes cross-linked with DIPB , 2011 .
[9] J. Staser,et al. Simultaneous Water Uptake, Diffusivity and Permeability Measurement of Perfluorinated Sulfonic Acid Polymer Electrolyte Membranes , 2011 .
[10] Lorenz Gubler,et al. Radical (HO•, H• and HOO•) Formation and Ionomer Degradation in Polymer Electrolyte Fuel Cells , 2011 .
[11] T. Fuller,et al. Design rules for the improvement of the performance of hydrocarbon‐based membranes for proton exchange membrane fuel cells (PEMFC) , 2010 .
[12] A. Laconti,et al. Mechanisms of membrane degradation , 2010 .
[13] A. Wokaun,et al. Damage to fuel cell membranes. Reaction of HO* with an oligomer of poly(sodium styrene sulfonate) and subsequent reaction with O(2). , 2010, Physical chemistry chemical physics : PCCP.
[14] Kyle N. Grew,et al. Ionic Equilibrium and Transport in the Alkaline Anion Exchange Membrane , 2010 .
[15] U. Gasser,et al. Correlation between Morphology, Water Uptake, and Proton Conductivity in Radiation‐Grafted Proton‐Exchange Membranes , 2010 .
[16] A. Wokaun,et al. Radiation grafted fuel cell membranes based on co-grafting of α-methylstyrene and methacrylonitrile into a fluoropolymer base film , 2009 .
[17] Peter Lund,et al. Crosslinking and alkyl substitution in nano-structured grafted fluoropolymer for use as proton-exchange membranes in fuel cells , 2009 .
[18] Qing Wang,et al. Dynamic Water Uptake of Flexible Ion‐Containing Polymer Networks , 2009 .
[19] O. Kamishima,et al. Investigation of proton diffusion in Nafion®117 membrane by electrical conductivity and NMR , 2009 .
[20] A. Wokaun,et al. Novel ETFE based radiation grafted poly(styrene sulfonic acid-co-methacrylonitrile) proton conducting membranes with increased stability , 2009 .
[21] Liliana A. Diaz,et al. Water and phosphoric acid uptake of poly [2,5-benzimidazole] (ABPBI) membranes prepared by low and high temperature casting , 2009 .
[22] R. Graf,et al. Solid-State NMR Investigations of Anhydrous Proton-Conducting Acid-Base Poly(acrylic acid)-Poly(4-vinyl pyridine) Polymer Blend System : A Study of Hydrogen Bonding and Proton Conduction , 2009 .
[23] A. Wokaun,et al. Cross-Linker Effect in ETFE-Based Radiation-Grafted Proton-Conducting Membranes I. Properties and Fuel Cell Performance Characteristics , 2008 .
[24] U. Gasser,et al. Structural characterization of radiation‐grafted block copolymer films, using SANS technique , 2008 .
[25] G. Alberti,et al. Effects of hydrothermal/thermal treatments on the water-uptake of Nafion membranes and relations with changes of conformation, counter-elastic force and tensile modulus of the matrix , 2008 .
[26] A. Wokaun,et al. The influence of crosslinker on the properties of radiation-grafted films and membranes based on ETFE , 2008 .
[27] F. de Bruijn,et al. Review: Durability and Degradation Issues of PEM Fuel Cell Components , 2008 .
[28] J. Benziger,et al. Water Sorption, Desorption and Transport in Nafion Membranes , 2007, ECS Transactions.
[29] E. M. Levin,et al. Effect of magnetic particles on NMR spectra of Murchison meteorite organic matter and a polymer-based model system. , 2007, Solid state nuclear magnetic resonance.
[30] H. Kubota,et al. Comparative study on the preparation and properties of radiation‐grafted polymer electrolyte membranes based on fluoropolymer films , 2007 .
[31] S. A. Gürsel,et al. Radiation-Grafted Membranes Using a Trifluorostyrene Derivative , 2006 .
[32] M. J. Cánovas,et al. Proton mobility in hydrated sulfonated polystyrene: NMR and impedance studies , 2006 .
[33] K. Kontturi,et al. Characterization of the novel ETFE-based membrane , 2006 .
[34] A. Wokaun,et al. Advanced monomer combinations for radiation grafted fuel cell membranes , 2006 .
[35] Y. Maekawa,et al. Suitability of some fluoropolymers used as base films for preparation of polymer electrolyte fuel cell membranes , 2006 .
[36] Minghong G. Wu,et al. Radiation‐induced grafting of acrylic acid and sodium styrene sulfonate onto high‐density polyethylene membranes. I. Effect of grafting conditions , 2006 .
[37] N. Sbirrazzuoli,et al. FT‐IR Spectroscopy and Hydrogen Bonding Interactions in Poly(styrene‐co‐methacrylic acid)/Poly(styrene‐co‐4‐vinyl pyridine) Blends , 2005 .
[38] S. A. Gürsel,et al. Proton exchange membranes prepared by radiation grafting of styrene/divinylbenzene onto poly(ethylene-alt-tetrafluoroethylene) for low temperature fuel cells , 2005 .
[39] K. Scott,et al. Grafted polymer electrolyte membrane for direct methanol fuel cells , 2005 .
[40] M. Washio,et al. Pre-irradiation induced grafting of styrene into crosslinked and non-crosslinked polytetrafluoroethylene films for polymer electrolyte fuel cell applications. II: Characterization of the styrene grafted films , 2005 .
[41] P. C. Deb,et al. Proton exchange membranes by grafting of styrene–acrylic acid onto FEP by preirradiation technique. I. Effect of synthesis conditions , 2003 .
[42] Chih-Feng Huang,et al. Comparison of hydrogen bonding interaction between PMMA/PMAA blends and PMMA-co-PMAA copolymers , 2003 .
[43] M. Nasef. Structural investigations of poly(ethylene terephthalate)‐graft‐polystyrene copolymer films , 2002 .
[44] David R. Brown,et al. Sulfonated poly(styrene-co-divinylbenzene) ion-exchange resins: acidities and catalytic activities in aqueous reactions , 2002 .
[45] A. S. Brar,et al. Characterization of styrene/methacrylic acid copolymers by 2D-NMR spectroscopy , 2001 .
[46] Jianfu Ding,et al. Ionic conductivity of proton exchange membranes , 2001 .
[47] K. Kreuer. On the development of proton conducting polymer membranes for hydrogen and methanol fuel cells , 2001 .
[48] H. Edwards,et al. Raman spectroscopy of sulfonated polystyrene resins , 2000 .
[49] Aleksey Vishnyakov and,et al. Molecular Simulation Study of Nafion Membrane Solvation in Water and Methanol , 2000 .
[50] Ocg Olaf Adan,et al. Moisture in organic coatings - a review , 1999 .
[51] P. C. Deb,et al. A new polyelectrolyte with acid‐base indicating properties , 1998 .
[52] Kenichi Nakashima,et al. Infrared, Raman, and Near-Infrared Spectroscopic Evidence for the Coexistence of Various Hydrogen-Bond Forms in Poly(acrylic acid) , 1997 .
[53] Adolphe Chapiro,et al. Crosslinked ion exchange membranes by radiation grafting of styrene/divinylbenzene into FEP films , 1996 .
[54] Günther G. Scherer,et al. Study of radiation-grafted FEP-G-polystyrene membranes as polymer electrolytes in fuel cells , 1995 .
[55] S. A. Gürsel,et al. Radiation Grafted Membranes for Polymer Electrolyte Fuel Cells , 2005 .
[56] B. Gupta,et al. Radiation‐induced grafting of styrene onto FEP. films: Structure and thermal behaviour of copolymers , 1993 .
[57] T. Springer,et al. Water Uptake by and Transport Through Nafion® 117 Membranes , 1993 .
[58] R. Hollandsworth,et al. Preparation of oxidatively stable cation-exchange membranes by the elimination of tertiary hydrogens , 1991 .
[59] James F. McElroy,et al. Hydrogen-oxygen proton-exchange membrane fuel cells and electrolyzers , 1990 .
[60] T. Momose,et al. Radiation grafting of α,β,β-trifluorostyrene onto poly(ethylene-tetrafluoroethylene) film by preirradiation method. II. Properties of cation-exchange membrane obtained by sulfonation and hydrolysis of the grafted film , 1989 .
[61] T. Momose,et al. Radiation grafting of α,β,β-trifluorostyrene onto various polymer films by preirradiation method , 1989 .
[62] T. Momose,et al. Radiation grafting of α,β,β‐trifluoroethylenesulfonyl fluoride onto low‐density polyethylene film by simultaneous irradiation method. I. Kinetic study of simultaneous‐irradiation grafting , 1988 .
[63] S. Lowry,et al. An investigation of ionic hydration effects in perfluorosulfonate ionomers by Fourier transform infrared spectroscopy , 1980 .
[64] A. Eisenberg,et al. Physical properties and supermolecular structure of perfluorinated ion‐containing (nafion) polymers , 1977 .
[65] I. Agranat,et al. The scope of the Haworth synthesis , 1976 .
[66] H. Starkweather. Internal motions in an alternating copolymer of ethylene and tetrafluoroethylene , 1973 .
[67] E. Teller,et al. On a Theory of the van der Waals Adsorption of Gases , 1940 .
[68] Kaewta Jetsrisuparb. Comonomer effects in radiation grafted membranes for polymer electrolyte fuel cells , 2013 .
[69] Sindy M. Dockheer. Damage to fuel cell membranes: mechanism of reactions of poly(styrene sulfonate) and poly(α-methylstyrene sulfonate) under conditions of oxidative stress , 2011 .
[70] U. Gasser,et al. Correlation between Morphology, Water Uptake, and Proton Conductivity in Radiation Grafted Proton Exchange Membranes , 2010 .
[71] Jürgen Garche,et al. Encyclopedia of electrochemical power sources , 2009 .
[72] A. Kornyshev,et al. Proton-Conducting Polymer Electrolyte Membranes: Water and Structure in Charge , 2008 .
[73] Matthew M. Mench,et al. Fuel Cell Engines , 2008 .
[74] B. Gupta,et al. Radiation Grafted Membranes , 2008 .
[75] Jennifer M. Schmeisser. Proton transport in proton exchange membranes , 2007 .
[76] Hubert A. Gasteiger,et al. Two Fuel Cell Cars In Every Garage , 2005 .
[77] E. Pretsch,et al. Spektroskopische Daten zur Strukturaufklärung organischer Verbindungen , 2001 .
[78] G. Scherer,et al. Grafting of pre-irradiated poly(ethylene-alt-tetrafluoroethylene) films with styrene: influence of base polymer film properties and processing parameters , 2000 .
[79] E. Roduner,et al. EPR investigation of HO/ radical initiated degradation reactions of sulfonated aromatics as model compounds for fuel cell proton conducting membranes , 1999 .
[80] A. Bhattacharyaa,et al. The Delphi technique , 1978 .
[81] A. Eisenberg,et al. Ion-containing polymers : physical properties and structure , 1977 .