Polybenzimidazole Fuel Cell Technology: Theory, Performance, and Applications
暂无分享,去创建一个
[1] Prakash C. Ghosh,et al. A new modified-serpentine flow field for application in high temperature polymer electrolyte fuel cell , 2017 .
[2] D. Aili,et al. Long-term durability of HT-PEM fuel cells based on thermally cross-linked polybenzimidazole , 2017 .
[3] K. Kreuer,et al. Why do proton conducting polybenzimidazole phosphoric acid membranes perform well in high-temperature PEM fuel cells? , 2017, Physical chemistry chemical physics : PCCP.
[4] J. Weidner. Electrolyzer performance for producing hydrogen via a solar-driven hybrid-sulfur process , 2016, Journal of Applied Electrochemistry.
[5] Jens Oluf Jensen,et al. High temperature polymer electrolyte membrane fuel cells: Approaches, status, and perspectives , 2016 .
[6] H. Ploehn,et al. High Temperature Creep Behavior of Phosphoric Acid-Polybenzimidazole Gel Membranes , 2015 .
[7] Wei Zhang,et al. Fe3C-based oxygen reduction catalysts: synthesis, hollow spherical structures and applications in fuel cells , 2015 .
[8] Taylor R. Garrick,et al. Polybenzimidazole Membranes for Hydrogen Production in the Hybrid Sulfur Electrolyzer , 2014 .
[9] H. Ploehn,et al. High Polymer Content 2,5‐Pyridine‐Polybenzimidazole Copolymer Membranes with Improved Compressive Properties , 2014 .
[10] B. Benicewicz,et al. Synthesis and Properties of Random Copolymers of Functionalised Polybenzimidazoles for High Temperature Fuel Cells , 2011 .
[11] Brian C. Benicewicz,et al. Sulfonated Polybenzimidazoles for High Temperature PEM Fuel Cells , 2010 .
[12] B. Rambabu,et al. Platinum/tin oxide/carbon cathode catalyst for high temperature PEM fuel cell , 2010 .
[13] J. Scholta,et al. Long‐Term Testing in Dynamic Mode of HT‐PEMFC H3PO4/PBI Celtec‐P Based Membrane Electrode Assemblies for Micro‐CHP Applications , 2010 .
[14] G. Ceder,et al. Electrochemical stability of nanometer-scale Pt particles in acidic environments. , 2010, Journal of the American Chemical Society.
[15] Raymond Puffer,et al. Recent Advances in High Temperature Proton Exchange Membrane Fuel Cell Manufacturing , 2009 .
[16] Brian C. Benicewicz,et al. Synthesis and Properties of Functionalized Polybenzimidazoles for High-Temperature PEMFCs , 2009 .
[17] Benjamin D. Gould,et al. Comparison of the Sulfur Poisoning of PBI and Nafion PEMFC Cathodes , 2009 .
[18] G. Qian,et al. Synthesis and characterization of high molecular weight hexafluoroisopropylidene‐containing polybenzimidazole for high‐temperature polymer electrolyte membrane fuel cells , 2009 .
[19] J. Scholta,et al. Long Term Testing in Continuous Mode of HT‐PEMFC Based H3PO4/PBI Celtec‐P MEAs for μ‐CHP Applications , 2009 .
[20] B. Benicewicz,et al. Synthesis of Poly (2,2′‐(1,4‐phenylene) 5,5′‐bibenzimidazole) (para‐PBI) and Phosphoric Acid Doped Membrane for Fuel Cells , 2009 .
[21] H. Gasteiger,et al. Just a Dream—or Future Reality? , 2009, Science.
[22] Frédéric Jaouen,et al. Iron-Based Catalysts with Improved Oxygen Reduction Activity in Polymer Electrolyte Fuel Cells , 2009, Science.
[23] T. Schmidt. High-Temperature Polymer Electrolyte Fuel Cells: Durability Insights , 2009 .
[24] T. Schmidt,et al. Development Status of High-Temperature PBI-based Membrane Electrode Assemblies , 2008 .
[25] P. Colomban. Proton Conductors: Solids, Membranes and Gels - Materials and Devices , 2008 .
[26] Arne Thomas,et al. Proton Conductivity Enhancement by Nanostructural Control of Poly(benzimidazole)‐Phosphoric Acid Adducts , 2008 .
[27] Brian C. Benicewicz,et al. Durability Studies of PBI‐based High Temperature PEMFCs , 2008 .
[28] Qingfeng Li,et al. Membranes for High Temperature PEMFC Based on Acid‐Doped Polybenzimidazoles , 2008 .
[29] Brian C. Benicewicz,et al. Electrochemical hydrogen pumping using a high-temperature polybenzimidazole (PBI) membrane , 2008 .
[30] Thomas J. Schmidt,et al. Properties of high-temperature PEFC Celtec®-P 1000 MEAs in start/stop operation mode , 2008 .
[31] K. Neyerlin,et al. Kinetic characterization of a Pt–Ni/C catalyst with a phosphoric acid doped PBI membrane in a proton exchange membrane fuel cell , 2008 .
[32] G. Qian. Fluorine-containing polybenzimidazoles for high temperature polymer electrolyte membrane fuel cell applications , 2008 .
[33] Brian C. Benicewicz,et al. Polybenzimidazole/Acid Complexes as High-Temperature Membranes , 2008 .
[34] T. Berning,et al. Polymer electrolyte fuel cells based on phosphoric acid doped polybenzimidazole (PBI) membranes , 2007 .
[35] S. Chung,et al. NMR Studies of Mass Transport in High-Acid-Content Fuel Cell Membranes Based on Phosphoric Acid and Polybenzimidazole , 2007 .
[36] Philip N. Ross,et al. Improved Oxygen Reduction Activity on Pt3Ni(111) via Increased Surface Site Availability , 2007, Science.
[37] Huamin Zhang,et al. Pt4ZrO2/C cathode catalyst for improved durability in high temperature PEMFC based on H3PO4 doped PBI , 2007 .
[38] Mark K. Debe,et al. High voltage stability of nanostructured thin film catalysts for PEM fuel cells , 2006 .
[39] Jingwei Hu,et al. Performance degradation studies on PBI/H3PO4 high temperature PEMFC and one-dimensional numerical analysis , 2006 .
[40] T. Schmidt,et al. Durability and Reliability in High-Temperature Reformed Hydrogen PEFCs , 2006 .
[41] T. Schmidt. Durability and Degradation in High-Temperature Polymer Electrolyte Fuel Cells , 2006 .
[42] Tequila A. L. Harris,et al. DEVELOPMENT OF A CASTING TECHNIQUE FOR MEMBRANE MATERIAL USED IN HIGH-TEMPERATURE PEM FUEL CELLS , 2006 .
[43] Hubert A. Gasteiger,et al. Instability of Pt ∕ C Electrocatalysts in Proton Exchange Membrane Fuel Cells A Mechanistic Investigation , 2005 .
[44] Brian C. Benicewicz,et al. High-Temperature Polybenzimidazole Fuel Cell Membranes via a Sol-Gel Process , 2005 .
[45] Christopher Smith,et al. Reliability of Plug Power GenSys™ fuel cell systems , 2005 .
[46] Pedro Gómez-Romero,et al. Recent Developments on Proton Conduc‐ting Poly(2,5‐benzimidazole) (ABPBI) Membranes for High Temperature Poly‐mer Electrolyte Membrane Fuel Cells , 2005 .
[47] L. J. Bregoli,et al. A Reverse-Current Decay Mechanism for Fuel Cells , 2005 .
[48] Brian C. Benicewicz,et al. Synthesis and Characterization of Pyridine‐Based Polybenzimidazoles for High Temperature Polymer Electrolyte Membrane Fuel Cell Applications , 2005 .
[49] M. Hickner,et al. Alternative polymer systems for proton exchange membranes (PEMs). , 2004, Chemical reviews.
[50] G. Robertson,et al. Sulfonated Poly(aryl ether ketone)s Containing the Hexafluoroisopropylidene Diphenyl Moiety Prepared by Direct Copolymerization, as Proton Exchange Membranes for Fuel Cell Application† , 2004 .
[51] G. Robertson,et al. Synthesis of Poly(arylene ether ether ketone ketone) Copolymers Containing Pendant Sulfonic Acid Groups Bonded to Naphthalene as Proton Exchange Membrane Materials , 2004 .
[52] Xianfeng Li,et al. Direct synthesis of sulfonated aromatic poly(ether ether ketone) proton exchange membranes for fuel cell applications , 2004 .
[53] S. An,et al. Synthesis of Poly(2,5‐benzimidazole) for Use as a Fuel‐Cell Membrane , 2004 .
[54] H. Kita,et al. Synthesis, water stability and proton conductivity of novel sulfonated polyimides from 4,4′-bis(4-aminophenoxy)biphenyl-3,3′-disulfonic acid , 2004 .
[55] P. Gómez‐Romero,et al. Polymer Electrolyte Fuel Cells Based on Phosphoric Acid-Impregnated Poly(2,5-benzimidazole) Membranes , 2004 .
[56] Hai-Feng Zhang. Novel phosphoric acid doped polybenzimidazole membranes for fuel cells , 2004 .
[57] Raymond Puffer,et al. Development of a Flexible Pilot High Temperature MEA Manufacturing Line , 2004 .
[58] Ronghuan He,et al. Proton conductivity of phosphoric acid doped polybenzimidazole and its composites with inorganic proton conductors , 2003 .
[59] Lixiang Xiao. Novel polybenzimidazole derivatives for high temperature polymer electrolyte membrane fuel cell applications , 2003 .
[60] P. Gómez‐Romero,et al. Proton‐conducting polymers based on benzimidazoles and sulfonated benzimidazoles , 2002 .
[61] N. Marković,et al. Surface Composition Effects in Electrocatalysis: Kinetics of Oxygen Reduction on Well-Defined Pt3Ni and Pt3Co Alloy Surfaces , 2002 .
[62] Deborah J. Jones,et al. Role of post-sulfonation thermal treatment in conducting and thermal properties of sulfuric acid sulfonated poly(benzimidazole) membranes , 2002 .
[63] D. Yan,et al. Synthesis of sulfonated poly(phthalazinone ether sulfone)s by direct polymerization , 2002 .
[64] V. Radmilović,et al. Oxygen Reduction on Carbon-Supported Pt−Ni and Pt−Co Alloy Catalysts , 2002 .
[65] Michael A. Hickner,et al. Direct polymerization of sulfonated poly(arylene ether sulfone) random (statistical) copolymers: candidates for new proton exchange membranes , 2002 .
[66] N. Ogata,et al. Properties of selected sulfonated polymers as proton-conducting electrolytes for polymer electrolyte fuel cells , 2002 .
[67] Y. Sakaguchi,et al. Preparation and Properties of Sulfonated or Phosphonated Polybenzimidazoles and Polybenzoxazoles , 2002 .
[68] V. Antonucci,et al. Sulfonated polysulfone ionomer membranes for fuel cells , 2001 .
[69] Li Qingfeng,et al. Phosphoric acid doped polybenzimidazole membranes: Physiochemical characterization and fuel cell applications , 2001 .
[70] V. Antonucci,et al. Sulfonated polybenzimidazole membranes — preparation and physico-chemical characterization , 2001 .
[71] G. Wegner,et al. Proton-conducting polymer electrolytes based on phosphoric acid , 1999 .
[72] Francois Girard,et al. Electrochemical hydrogen compressor , 1998 .
[73] R. Savinell,et al. Polybenzimidazoles/Phosphoric Acid Solid Polymer Electrolytes: Mechanical and Electrical Properties , 1998 .
[74] Youngkwan Lee,et al. Aromatic and rigid rod polyelectrolytes based on sulfonated poly(benzobisthiazoles) , 1996 .
[75] Jesse S. Wainright,et al. Acid-doped polybenzimidazoles : a new polymer electrolyte , 1995 .
[76] Sanjeev Mukerjee,et al. Role of Structural and Electronic Properties of Pt and Pt Alloys on Electrocatalysis of Oxygen Reduction An In Situ XANES and EXAFS Investigation , 1995 .
[77] Sanjeev Mukerjee,et al. Enhanced electrocatalysis of oxygen reduction on platinum alloys in proton exchange membrane fuel cells , 1993 .
[78] K. Kreuer,et al. Proton conductivity in fused phosphoric acid; A 1H/31P PFG-NMR and QNS study , 1993 .
[79] P. Ross,et al. The Structure and Activity of Pt‐Co Alloys as Oxygen Reduction Electrocatalysts , 1990 .
[80] J. Mcelroy. SPE regenerative hydrogen/oxygen fuel cells for extraterrestrial surface applications , 1989, Proceedings of the 24th Intersociety Energy Conversion Engineering Conference.
[81] R. Barnes,et al. Workshop Summary Report , 1989 .
[82] J. Glass,et al. The Effect of Metallurgical Variables on the Electrocatalytic Properties of PtCr Alloys , 1987 .
[83] H. Ploehn,et al. High Polymer Content 3,5‐Pyridine‐Polybenzimidazole Copolymer Membranes with Improved Compressive Properties , 2022 .