Co-Chairs: P. Arora and G. Botte
| Time | Abs# | Title |
|---|---|---|
| 08:00 | 2008 | Proton-Conducting Polymer With Methanol-Inhibiting Copolymer - C. Walker (U.S. Army Research Laboratory) |
| 08:20 | 2009 | Thin Film Tri-layer Proton Exchange Membranes for Direct Methanol Fuel Cell (DMFC) Applications - R. Jiang, H.R. Kunz, and J.M. Fenton (University of Connecticut) |
| 08:40 | 2010 | Preparation of High Temperature durable Membrane Electrolytes for PEFCs - N. Kamiya, Y. Sasaya, K. Kudo, S. Mitsushima, and K.-I. Ota (Yokohama National University) |
| 09:00 | 2011 | Sulfonated Random and Block Copolyimides - M. Hibbs and C. Cornelius (Sandia National Laboratories) |
| 09:20 | 2012 | Highly Conductive Polyarylenethioethersulfone Electrolyte Membrane Fuel Cells - S. Rodrigues, T. Reitz, T.D. Dang (Air Force Research Laboratory), and Z. Bai (University of Dayton Research Institute) |
| 09:40 | Twenty-Minute Intermission | |
| 10:00 | 2013 | Nmr Investigation Of Highly Sulfonated Polyarylenethioethersulfones For Fuel Cell Applications - J. Jayakody, A. Khalfan, S. Greenbaum (Hunter College of CUNY), T. Dang, R. Mantz (Air Force Research Lab/MLB), and Z. Bai (University of Dayton Research Institute) |
| 10:20 | 2014 | Evaluation of multiblock sulfonated-fluorinated poly(arylene ether)s membranes for a proton exchange membrane fuel cells (PEMFC): the role of phase morphology - H. Ghassemi and T. Zawodzinski (Department of Chemical Engineering and Case Advanced Power Institute, Case Western Reserve University) |
| 10:40 | 2015 | Preparation and Performance of Sulfonated Polyphenylenes - C. Fujimoto, M. Hickner, and C. Cornelius (Sandia National Labs) |
| 11:00 | 2016 | Sulfonated Diels-Alder Polyphenylenes: Physical Properties and Performance Characteristics in a Hydrogen Fuel Cell - C. Cornelius, C. Fujimoto, and M. Hickner (Sandia National Laboratories) |
| 11:20 | 2017 | Synthesis And Characterization Of Comb Shape Single Ion Conductors Based On Polyepoxide Ethers And Perfluorinataed Lithium Salts - X.-G. Sun, C. Reeder, J. Kerr (Lawrence Berkeley National Laboratory), D.D. DesMarteau, S. Creager, O. Geiculescu, and R. Rama (Clemson University) |
| 11:40 | 2018 | onic Conductivity, Electrochemical And Viscoelastic Properties Of Network Single Ion Conductors Based On Polyepoxide Ethers And Lithium Bis(Allylmalonato)Borate - X.-G. Sun, J. Kerr, C. Reeder, Y. Han, and G. Liu (Lawrence Berkeley National Laboratory) |
Co-Chairs: N. Kamiya and G. Botte
| Time | Abs# | Title |
|---|---|---|
| 14:00 | 2019 | Polymeric Membranes for Carbon dioxide Separation in Alkaline Fuel Cells - A. Tewari, V. Sambhy, A. Sen, and M.U. Macdonald (Pennsylvania State University) |
| 14:20 | 2020 | NMR Studies Of Mass Transport In High Acid Content Fuel Cell Membranes Based On PBI/Phosphoric Acid - S. Chung, L. Durantino (William Paterson University), J. Jayakody (Hunter College of CUNY), H. Zhang, L. Xiao, B. Benicewicz (Rensselaer Polytechnic Institute), and S. Greenbaum (Hunter College of CUNY) |
| 14:40 | 2021 | Effect of phosphoric acid for ion conduction of Calcium phosphate glass gel as an electrolyte membrane in a middle range temperature operated fuel cell. - M. Nakatani and M. Ichikawa (Hokkaido University) |
| 15:00 | 2022 | Nanoporous silicon as a proton exchange membrane for micro-scale fuel cells - S. Gold (Louisiana Tech University), K.-L. Chu (Univeristy of Illinois at Urbana-Champaign), M. Shannon (University of Illinois at Urbana-Champaign), and R. Masel (Univeristy of Illinois at Urbana-Champaign) |
| 15:20 | 2023 | Nano-scale Modified Inorganic/Organic Hybrid Materials as Proton Conductors - B. Chou, H. Ghassemi, and T. Zawodzinski (Case Western Reserve University) |
| 15:40 | 2024 | New polymeric proton conductors for water-free and high temperature fuel cells - X.-G. Sun, J. Kerr, G. Liu, and C. Reeder (Lawrence Berkeley National Laboratory) |
| 16:00 | 2025 | Microcomposite Proton Exchange Membranes Based on Water Soluble Ionomers - D. Ofer, B. Nair, E. Stoler, C. Pascoal (Foster-Miller, Inc.), C. Ma, S. Mukerjee (Northeastern University), S. Putthanarat, and R. Eby (The University of Akron) |
| 16:20 | 2026 | Fullerene-Based Membrane for Dry Operation of Polymer Electrolyte Fuel Cells - K. Tasaki, A. Venkatesan (MC Research & Innovation Center), P. Pugazhendi, and R. Loutfy (MER Corp.) |
| 16:40 | 2027 | Ion Exchange Behavior of Polymer Electrolyte Membranes with Metal Cations and the Influence on the Characteristics of the Membranes - Y. Masaki, T. Doi, T. Kudo, and Y. Tarutani (Sumitomo Metal Industries, Ltd) |
| 17:00 | 2028 | Conductive Properties and Structure of Polar Solvents-Impregnated Nafion Membrane - A.M. Affoune (Guelma University), M. Umeda, and A. Yamada (Nagaoka University of Technology) |
| 17:20 | 2029 | A new polymer electrolyte electrochemical cell for measuring hydrogen permeation and diffusion in polymeric membranes tested on NafionĀ® and PDMS - B. Kienitz, T. Zawodzinski, and H. Baskaran (Case Western Reserve University) |
| 17:30 | 2030 | A Fundamental Study of the Transport Properties of Aqueous Superacids as a Model of Proton Conducting Electrolytes - S. Suarez, S. Greenbaum (Hunter College of the City University of New York), M. Eikerling, A. Saab (Los Alamos National Laboratory), H. Every, and T. Zawodzinski (Case Western Reserve University) |
Co-Chairs: P. Arora and N. Kamiya
| Time | Abs# | Title |
|---|---|---|
| o | 2031 | Nafion/Exfoliated-ZrP Hybrid Membrane for DMFC Applications - C.-Y. Chen (Industrial technology Research Institute) |
| o | 2032 | Fabrication of Self-humidified Composite Membrane for PEMFC - M. Min, H.-T. Kim, H. Kim, and H. Kweon (Samsung SDI CO., LTD) |
| o | 2033 | Nafion Modified by Self-Assembled Polyaniline Multilayers for Liquid Feed DMFC - Y. Kang, D.W. Kim, J. Kwon, S. Park (Korea Research Institute of Chemical Technology), J.-H. Choi (Gwangju Institute of Science and Technology), and Y.-E. Sung (Seoul National University) |
| o | 2034 | The thin membrane of sulfonated Crosslinked Polytetrafluoroethylene for Poly-Electrolyte Fuel Cell - S. Ichizuri, S. Asano, F. Muto, J. Li (University of waseda), S. Ikeda, M. Iida (RAYTECH Corporation), T. Miura (University of waseda), C. Matsuura, Y. Katsumura (University of Tokyo), A. Oshima, and M. Washio (University of waseda) |
| o | 2035 | Fabrication of PEFC Membrane Based on Fluorinated Polymer-alloy Thin Film by EB-Grafting - S. Ikeda (Raytech Corporation), S. Asano, F. Mutou, S. Ichizuri, J. Li (Waseda University), T. Miura, M. Iida (Raytech Corporation), C. Matsuura, Y. Katsumura (The University of Tokyo), A. Oshima, and M. Washio (Raytech Corporation) |
| o | 2036 | Fuel Cell Performance Using Proton Conducting Polymers Based on Hydrocarbon Polymers (II) - K. Kaneko, Y. Takeoka, M. Rikukawa, and K. Sanui (Department of Chemistry, Sophia University) |
| o | 2037 | Synthesis of Anhydrous Proton Conducting Polymers Consisting of Basic Poly(ethersulfone) - H. Okada, Y. Takeoka, M. Rikukawa, and K. Sanui (Department of Chemistry, Sophia University) |
| o | 2038 | Preparation of Proton Conductive Polymer/Ion Exchange Fiber Sheet Composite Membranes - H. Negishi (National Institute of Advanced Industrial Science and Technology (AIST)), H. Suzuki (Tokyo University of Science), Y. Takahara, T. Sakai (Awa Paper Mfg. Co. Ltd.), T. Imura, D. Kitamoto, T. Ikegami (National Institute of Advanced Industrial Science and Technology (AIST)), Y. Idemoto, N. Koura (Tokyo University of Science), and H. Yanagishita (National Institute of Advanced Industrial Science and Technology (AIST)) |
| o | 2039 | Composite polymer electrolyte membrane for high temperature operation of DMFC - H.-J. Kim, J.-E. Ahn, Y.-G. Shul, and H. Han (Yonsei University) |
| o | 2040 | PES/SPEEK-silica composite proton exchange membranes for DMFC - H.-L. Wu (Industrial technology Research Institute) |
| o | 2041 | Synthesis and characterization of sulfonated Polyethersulfone-cardo proton exchange membranes - B. Riffault, P. Schaetzel, and Q.T. Nguyen (Universite de Caen) |
| o | 2042 | Synthesis and characterization of PVA-poly(styrenesulfonic acid-co-maleic acid) proton exchange membranes - B. Riffault, P. Schaetzel (Universite de Caen), and Q.T. Nguyen (Universite De caen) |
| o | 2043 | Synthesis of Novel Poly(Phenylene) Derivatives as Proton Conducting Membranes for Fuel Cells - T. Yamawaki, Y. Takeoka, M. Rikukawa, and K. Sanui (Department of Chemistry, Sophia University) |
| o | 2044 | Synthesis and Evaluation of Fullerene Derivatives for Proton Conducting Materials - K. Akizuki, Y. Takeoka, M. Rikukawa, and K. Sanui (Department of Chemistry, Sophia University) |
| o | 2045 | D-NMR Studies of Dynamics and Microstructure in Different Proton Exchange Membrane - C.-Y. Chen (Industrial technology Research Institute) |
| o | 2046 | Analysis of Ionic Cluster Structure in Polymer Electrolyte Membranes - T. Iyama, Y. Takeoka, M. Rikukawa, and K. Sanui (Department of Chemistry, Sophia University) |
| o | 2047 | Determination of Electroosmotic Drag Coefficients for Water and Methanol in Membranes for DMFC - T. Tschinder (Atotech Deutschland GmbH), B. Evers, T. Schaffer, V. Hacker, and J. Besenhard (Graz University of Technology) |
| o | 2048 | Exploring New Proton Conducting Materials For PEM Fuel Cells: Inorganic-organcic Hybrid Compounds Containing Heteropoly Acids - F. Meng, S.F. Dec, A.M. Herring (Colorado School of Mines), and J.A. Turner (National Renewable Energy Laboratory) |
| o | 2049 | Pt/C-Electrocatalyst Painting at Segmented Area of Nafion Surface Driven by Electrostatic Spray Deposition - S. Kawaguchi, M. Umeda, A. Yamada (Department of Chemistry, Nagaoka University of Technology), and I. Uchida (Department of Applied Chemistry, Graduate School of Engineering, Tohoku University) |
| o | 2050 | The Development of Electroless Coated Bipolar Plates with Injection Molding for PEM Fuel Cell System - S.-G. Park (Chungbuk National University), M.-H. Oh, Y.-S. Yoon (Korea Automotive Technology Institute), T. Shimizu, and T. Osaka (Waseda University) |
| o | 2051 | Thin and Dense YSZ Electrolyte Membranes for IT-Temperature SOFCs - S.D. Kim, J.-H. Kim, S.H. Hyun, J. Moon (Yonsei University), and R.H. Song (Korea Institute of Energy Research) |
| o | 2052 | Impedance Spectroscopy Characterization of Hermetically Sealed SOFCs - C. Compson and M. Liu (Georgia Institute of Technology) |
| o | 2053 | Effect of Solvent on the Properties of Nanoparticle-Filled Polymer Electrolytes Prepared by Phase Inversion Technique - K.M. Kim, N.-G. Park, K.S. Ryu, and S.H. Chang (Electronics and Telecom. Research Inst. (ETRI)) |