Honolulu PRiME 2012 - Honolulu, Hawaii | ||
October 7 - October 12, 2012 | ||
PROGRAM INFORMATION | ||
B7 - Metal-Air Batteries | ||
Monday, October 8, 2012 | ||
Nautilus 1, Mid-Pacific Conference Center, Hilton Hawaiian Village | ||
Air Electrode | ||
Co-Chairs: Jie Xiao, Fanny Barde | ||
| Time | Progr# | Title and Authors |
|---|---|---|
| 08:00 | 1099 | (Invited) Metal-Air Batteries: A Reality Check S. Whittingham (SUNY) |
| 08:40 | 1100 | Very High Specific Surface Area Capacity Lithium-Air Battery P. Stevens, G. Toussaint (Electricité de France), P. Vinatier, and L. Puëch (Université de Bordeaux) |
| 09:00 | 1101 | A Versatile Composite Electrode Design for Metal-Air Batteries A. C. Marschilok, E. S. Takeuchi, and K. J. Takeuchi (Stony Brook University) |
| 09:20 | 1102 | CANCELLED
Comparison of Air Cathodes and Aluminium Anodes for High-Power Density Alkaline Aluminium-Air Batteries
D. MacAodhagáin, C. Ponce-de-Leon-Albarran, R. J. Wood (University of Southampton), K. R. Stokes (DSTL, UK), and F. C. Walsh (University of Southampton)
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| 09:40 | Intermission (20 Minutes) | |
| 10:00 | 1103 | (Invited) Cycling Stability and Charging Behavior of Carbon Nanotube Electrodes for Li-O2 Batteries B. M. Gallant, R. R. Mitchell, C. V. Thompson, and Y. Shao-Horn (Massachusetts Institute of Technology) |
| 10:40 | 1104 | N-Doped Graphene Nanosheet for Li-Air Fuel Cell under Acidic Conditions E. Yoo (Advanced Industrial Science And Technology), J. Nakamura (University of Tsukuba), and H. Zhou (National Institute of Advanced Industrial Science and Technology) |
| 11:00 | 1105 | Structure of Li2O2 Discharge Products on Free-Standing Aligned Carbon Nanotube Electrodes for Li-Air Batteries R. R. Mitchell, B. M. Gallant, Y. Shao-Horn, and C. V. Thompson (Massachusetts Institute of Technology) |
| 11:20 | 1106 | Graphene and N-Doped Graphene as Cathodes for Li-Air Batteries Y. Li, J. Wang, X. Li, D. Geng, R. Li, and X. A. Sun (University of Western Ontario) |
Reaction Meachanism | ||
Co-Chairs: Yang Shao-Horn, Nobuyuki Imanishi | ||
| Time | Progr# | Title and Authors |
| 13:00 | 1107 | (Invited) Promoting Ideal Reaction Processes in the Rechargeable Non-Aqueous Li-Air Battery F. Bardé (Toyota Motor Europe), Y. Chen, S. A. Freunberger, and P. Bruce (University of St. Andrews) |
| 13:30 | 1108 | (Invited) Fundamental Electrochemistry in Non-Aqueous Li-air B. McCloskey (IBM Research), A. Speidel, R. Scheffler (Volkswagen of America), V. Viswanathan, J. S. Hummelshøj, J. K. Nørskov (Stanford University), and A. Luntz (IBM Almaden Research) |
| 14:00 | 1109 | (Invited) Metal-Air Technologies-- Reversibility of Zinc Electrode J. Yamaki, A. Nakata, T. Yamane, T. Hirai, and Z. Ogumi (Kyoto University) |
| 14:30 | 1110 | Electrochemistry of Cathode Materials for Lithium-Oxygen Batteries Using Microelectrode Voltammetry E. Nemanick (The Aerospace Corporation) |
| 14:50 | 1111 | Decomposition Kinetics of Li-Air Cell Discharge Products in Non-Catalyzed and Catalyzed Carbon Cathodes S. Meini (Technische Universität München), H. Beyer, N. Tsiouvaras, M. Piana (Technical University Munich), and H. A. Gasteiger (Technische Universität München) |
| 15:10 | 1112 | Toward Efficiently Rechargeable Li-O2 Batteries: Freely Diffusing Catalysts and O2 Electrode-Stable Solvents W. Walker (Liox Power Inc.), V. Giordani, V. S. Bryantsev, J. Uddin, S. Zecevic, D. Addison, and G. V. Chase (Liox Power, Inc.) |
Tuesday, October 9, 2012 | ||
Nautilus 1, Mid-Pacific Conference Center, Hilton Hawaiian Village | ||
Electrolyte | ||
Co-Chairs: Yangchuan Xing, Jie Xiao | ||
| Time | Progr# | Title and Authors |
| 08:00 | 1113 | (Invited) Dual-Electrolyte Lithium-Air Batteries with Buffer Catholytes A. Manthiram (The University of Texas at Austin), L. Li, and Y. Fu (University of Texas at Austin) |
| 08:40 | 1114 | Investigations of Li-O2 Batteries Using Polyethylene Oxide in Structured Three-Phase Electrodes J. R. Harding, Y. Lu, P. T. Hammond, and Y. Shao-Horn (Massachusetts Institute of Technology) |
| 09:00 | 1115 | Recent Developments in Solid Li-Ion Electrolytes V. Thangadurai (University of Calgary) |
| 09:20 | 1116 | The Effects of Electrolyte Salts on the Performance of Li-Air Batteries E. Nasybulin, W. Xu, M. H. Engelhard, Z. Nie, J. Hu, J. Xiao, M. Gross, and J. Zhang (Pacific Northwest National Laboratory) |
| 09:40 | Intermission (20 Minutes) | |
| 10:00 | 1117 | (Invited) A Reversible Lithium-Air Battery with Low Charge Polarization using Ether-Based Electrolytes K. Amine (Argonne National Laboratory), J. Lu (Argonne National Lab), H. Jung (Hanyang University), K. C. Lau, Z. Zhang, J. Schlueter, P. Du, R. Assary, J. Greeley, G. Ferguson, H. Wang (Argonne National Laboratory), J. Hassoun (University of Rome Sapienza), H. Iddir (Argonne National Laboratory), Y. Sun, B. Scrosati (Hanyang University), and L. A. Curtiss (Argonne National Laboratory) |
| 10:40 | 1118 | A Long Life, High Capacity, High Rate Lithium-Air Battery Using a Stable Glyme Electrolyte H. Jung, J. Park, H. Kim (Hanyang University), J. Hassoun (University of Rome Sapienza), C. Yoon, B. Scrosati, and Y. Sun (Hanyang University) |
| 11:00 | 1119 | Stability of Li-Salts during the Discharge Reaction in a Li-O2 Cell G. M. Veith, J. Nanda, and N. J. Dudney (Oak Ridge National Laboratory) |
| 11:20 | 1120 | Stability of Pyr14TFSI Ionic Liquid in Li-O2 Cells and Its effect on the Cycling Behavior M. Piana, N. Tsiouvaras, S. Meini, I. Buchberger, J. Wandt, H. A. Gasteiger (Technische Universität München), and A. Garsuch (BASF SE) |
| 11:40 | 1121 | Electrochemical Performance of All-Solid-State Lithium-Air Batteries H. Kitaura and H. Zhou (National Institute of Advanced Industrial Science and Technology) |
Catalyst | ||
Co-Chairs: V.Thangadurai, Zheng Li | ||
| Time | Progr# | Title and Authors |
| 13:20 | 1122 | (Invited) Investigation of ORR and OER in Non-Aqueous (and Aqueous) Li-O2 Cells Using Metal Oxide Catalysts B. D. Adams, S. Oh, R. W. Black, A. Baran- Harper, and L. F. Nazar (University of Waterloo) |
| 14:00 | 1123 | Metal Nitrides as Alternative Catalyst for Air Cathodes C. Pozo-Gonzalo, A. A. Torriero, P. Howlett, M. Forsyth (Deakin University), A. M. Glushenkov, O. Kartachova, and Y. Chen (Geelong Technology Precinct) |
| 14:20 | 1124 | Role of Manganese Oxides in the Oxygen Electrode for Li-Air Batteries I. Bae (Duracell Technology Center) and K. Nam (Brookhaven National Laboratory) |
| 14:40 | 1125 | Highly Performance and Stable Core-corona Bifunctional Catalyst for Rechargeable Metal-air Batteries Z. Chen, Z. Chen, D. Higgins, and A. Yu (University of Waterloo) |
| 15:00 | Battery division student research award address- held jointly with B4 (20 Minutes) | |
| 15:20 | 1126 | Graphene-Metal Oxide Catalysts for Li-O2 Batteries R. W. Black, J. Lee, B. D. Adams, A. Baran- Harper, and L. F. Nazar (University of Waterloo) |
| 15:40 | 1127 | The effect of the Surface Area of LaNiO3 Support on the Oxygen Reduction/Evolution Activity of Air Electrode for Rechargeable Metal-Air Batteries M. Yuasa, H. Imamura, T. Kida, and K. Shimanoe (Kyushu University) |
| 16:00 | 1128 | Graphene/Metal Oxide Catalyst Based High Capacity Cathode for Li-O2 Batteries R. S. Kalubarme, C. Ahn, and C. Park (Chonnam National University) |
| 16:20 | 1129 | Activated and Nitrogen Doped Carbon Nanofibers as Oxygen Reduction Electrode Materials for Zinc-Air Batteries D. C. Higgins, Y. Liu, Z. Chen, and Z. Chen (University of Waterloo) |
| 16:40 | 1130 | Nickel Cobalt Oxide Nanostructures on Graphene as an Active Bifunctional Electrocatalyst D. Lee, A. Yu, H. Park, and Z. Chen (University of Waterloo) |
Kamehameha Exhibit Hall 3, Level 1, Hawaii Convention Center | ||
B7 - Poster Session | ||
Co-Chairs: Nobuyuki Imanishi, V.Thangadual | ||
| Time | Progr# | Title and Authors |
| o | 1131 | Cyclic Voltammetry of Zn/Zn(II) Couple in Dycyanamide Anion and Bis-(trifluoromethylsulfonyl)Imide Anion Based Ionic Liquids M. Xu, D. Ivey (University of Alberta), Y. Bing, Z. Xie, and W. Qu (National Research Council Canada) |
| o | 1132 | Carbon Air Electrodes for Alkaline Aqueous Electrolyte Lithium/Air Secondary Batteries H. Ohkuma, I. Uechi, N. Imanishi, Y. Takeda, and O. Yamamoto (Mie University) |
| o | 1133 | Microwave-Assistanted Synthesis of Ag-MnO2/SWNT Electrocatalyst for Metal-Air Cells G. Zhang and Y. Jiang (Yangtze Normal University) |
| o | 1134 | Carbon Sphere Dotted with Co3O4 and RuO2 Nano Particles for Rechargeable Li/Air Batteries C. Park and Y. Park (Kyonggi University) |
| o | 1135 | Synthesis and Properties of Garnet-Type Li7-x-yLa3Zr2-yNbyO12-0.5x K. Ishiguro, Y. Nakata, N. Imanishi, A. Hirano, Y. Takeda, and O. Yamamoto (Mie University) |
| o | 1136 | Air Electrode with Oxide Catalyst for Aqueous Lithium-Air Rechargeable Batteries S. Sunahiro, H. Ohkuma, I. Uechi, N. Imanishi, Y. Takeda, and O. Yamamoto (Mie University) |
| o | 1137 | Lithium Nitride Formation on Lithium Metal N. Futamura, T. Ichikawa, N. Imanishi, Y. Takeda, and O. Yamamoto (Mie University) |
| o | 1138 | Role of Metal Decoration in the Catalytic Activity of Urchin-Like MnO2 for Oxygen Reaction in Aqueous Lithium-Oxygen Batteries K. Jung, J. Lee, A. Riaz, S. Lee, T. Lim, S. Park, R. Song, and K. Shin (Korea Institute of Energy Research) |
| o | 1139 | Tape-Cast Lithium Conducting Solid Electrolyte Li1.4Ti1.6Al0.4(PO4)3 for Aqueous Lithium-Air Batteries K. Takahashi, N. Imanishi, Y. Takeda, and O. Yamamoto (Mie University) |
| o | 1140 | Rechargeable, All-Solid Li-Air Battery W. Chang (Industrial Technology Research Institute), D. Hallinan (Lawrence Berkeley National Laboratory), Y. Lee (Industrial Technology Research Institute), T. Yen (CPC), and C. Yang (Industrial Technology Research Institute) |
| o | 1141 | Mesoporous Nitrogen Doped Carbon as Cathode Materials for High Capacity Lithium-Air Batteries A. Zahoor, M. Christy, Y. Hwang, J. Choi, and K. Nahm (Chonbuk National University) |
| o | 1142 | An Effort to Understand the Basic Characteristics of Hybrid Li-air Cell Performance D. Yoon, K. Kim (SK Innovation), M. Park (SK Innovation, Battery R&D), S. Kim, and H. Sun (SK Innovation) |
| o | 1143 | Electrodeposited Manganese Oxide Catalysts for Oxygen Reduction Aqueous Alkaline Media S. H. Pulukadang and S. W. Donne (University of Newcastle) |
| o | 1144 | Electrochemical Properties of Graphene Based Catalyst for Rechargeable Li/O2 Batteries C. Ahn, R. S. Kalubarme, and C. Park (Chonnam National University) |
| o | 1145 | Effects of Nb2O5 Addition on the Electrochemical Properties of Li1.5Al0.5Ge1.5P3O12 Glass Ceramic for Li-Air Batteries T. Kim, R. S. Kalubarme, and C. Park (Chonnam National University) |
| o | 1146 | Rechargeable Li/O2 Cell Based on a LiTFSI-DMMP/PFSA-Li Composite Electrolyte H. Wang (Shanghai Jiao Tong University), X. Liao (Shanghai Jiaotong University), L. Li, and Z. Ma (Shanghai Jiao Tong University) |
| o | 1147 | MnO2-Based Nanostructures as Catalysts for Oxygen Oxidation-Reduction Reaction in Rechargeable Lithium-Oxygen Battery B. Huang (Shanghai Jiao Tong University), X. Liao (Shanghai Jiaotong University), and Z. Ma (Shanghai Jiao Tong University) |
| o | 1148 | Multifunctional Carbon Nanoarchitectures as Air-Breathing Cathodes for Rechargeable Zn-Air and Li-Air Batteries C. N. Chervin, J. W. Long, M. J. Wattendorf, N. W. Kucko, and D. R. Rolison (U.S. Naval Research Laboratory) |
| o | 1149 | Modeling of Bifunctional Electrode in Metal Air Battery D. Chan (LeeMing Institute of Technology), K. Hsueh (National United University), C. Wu, and W. Chang (Industrial Technology Research Institute) |
| o | 1150 | Inhibiting Ability of Chelating Agent on Aluminum Corrosion in Alkaline Solution and Testing of Aluminum-Air Single Cell C. Wu, C. Chung (Industrial Technology Research Institute), K. Hsueh (National United University), and W. Chang (Industrial Technology Research Institute) |
| o | 1151 | The Kinetic Reaction of Aluminum-Air Battery in Different Aqueous Solution C. Wang, K. Hsueh (National United University), and C. Hsieh (Institute of Nuclear Energy Research) |
| o | 1152 | Manganese Oxide Nanosheets: Applications in High Energy Density Zn-Air Batteries Y. Korenblit (Ulsan National Institute of Science & Technology), G. Yushin (Georgia Institute of Technology), and J. Cho (Ulsan National Institute of Science & Technology) |
Wednesday, October 10, 2012 | ||
Nautilus 1, Mid-Pacific Conference Center, Hilton Hawaiian Village | ||
Anode | ||
Co-Chairs: Jordi Cabana, Jie Xiao | ||
| Time | Progr# | Title and Authors |
| 08:00 | 1153 | (Invited) Protective Layers for the Lithium Electrode Based on Ceramic Phases J. Cabana (Lawrence Berkeley National Laboratory) |
| 08:40 | 1154 | (Invited) Factors Affecting the Cycle Life of a Nonaqueous Li-Air Cell with a Protected Anode D. Im, D. Lee, T. Kim, V. Roev, S. Ma (Samsung Electronics Co.), and S. Doo (Samsung Electronics) |
| 09:20 | 1155 | Lithium Dendrite Formation between PEO18LiTFSI and Lithium Metal H. Wang, N. Imanishi, Y. Takeda, and O. Yamamoto (Mie University) |
| 09:40 | Intermission (20 Minutes) | |
| 10:00 | 1156 | (Invited) Ultra-High Energy Density Lithium-Air Batteries Based on Protected Lithium Electrodes (PLEs) S. J. Visco, E. Nimon, B. Katz, M. Chu, and L. De Jonghe (PolyPlus Battery Company) |
| 10:40 | 1157 | Ionic Conductivity of Garnet-Type Li7-xLa3Zr2O12-0.5x Solid Electrolyte for Lithium Metal Electrode Y. Nakata, K. Ishiguro, N. Imanishi, Y. Takeda, and O. Yamamoto (Mie University) |
| 11:00 | 1158 | Nickel Foam, a Probable Current Collector in Rechargeable Li-Air Batteries X. Liu and D. Wang (Chinese Academy of Science) |
| 11:20 | 1159 | Degradation Products on Li-Negative Electrode and the Carbon Cathode in Li-O2 Batteries R. Younesi, M. Hahlin, and K. Edström (Uppsala University) |
| 11:40 | 1160 | Metal-Free "Li-Ion" Air Battery Realized by Controlling Solvation State in Electrolyte Y. Yamada, M. Yaegashi, K. Furukawa, F. Li (The University of Tokyo), H. Zhou (National Institute of Advanced Industrial Science and Technology), and A. Yamada (The University of Tokyo) |
Fundamental Investigation | ||
Co-Chairs: Nobuyuki Imanishi, Yi-Chun Lu | ||
| Time | Progr# | Title and Authors |
| 13:20 | 1161 | (Invited) Investigation of Rechargeable Li-Air Battery D. Zheng, Q. Wang, D. Qu (University Of Massachusetts Boston), and X. Yang (Brookhaven National Laboratory) |
| 14:00 | 1162 | Effect of Substitution of Cobalt by Manganese on the Properties of Calcium-Doped Lanthanum Cobalt Oxide for Oxygen Reduction Reaction in Alkaline Medium S. Malkhandi, P. Trinh, A. Manohar, G. Prakash, S. Narayanan (University of Southern California), and A. Manivannan (U.S. Department of Energy) |
| 14:20 | 1163 | Towards Understanding the Mechanism of the Electrochemical Oxygen Reduction: DFT Modeling and Spectroelectrochemical Validation P. Biedermann, S. Nayak, and A. Erbe (Max-Planck-Institut für Eisenforschung GmbH) |
| 14:40 | 1164 | Predictive Modeling of Size-Dependent Dendritic Growth in Dilute-Electrolyte Lithium Metal Batteries with Potentiostatic Cycling A. Aryanfar, M. Hoffmann, and A. Colussi (California Institute of Technology) |
| 15:00 | 1165 | Computational Investigations of the Electronic Transport in Lithium-Air Battery Materials T. Vegge, J. Garcia-Lastra, J. Myrdal, and K. Thygesen (Technical University of Denmark) |
| 15:20 | 1166 | A Transient Model of an Aqueous Li/Air Battery Forming LiOH (aq) and LiOH•H2O P. Albertus (Robert Bosch Research and Technology Center), V. Viswanathan (Stanford University), and J. Christensen (Robert Bosch Research and Technology Center) |
| 15:40 | 1167 | Oxygen Reduction Catalyst Selection for Lithium Air Batteries via Rotating Ring Disc Electrode Voltammetry and In Situ X-ray Absorption Spectroscopy M. Trahan, S. Mukerjee, and K. Abraham (Northeastern University) |
| 16:00 | 1168 | Probing Reaction Mechanisms of Li-O2 Batteries via In Situ Ambient Pressure X-ray Photoelectron Spectroscopy Y. Lu, E. J. Crumlin (Massachusetts Institute of Technology), G. M. Veith (Oak Ridge National Laboratory), J. R. Harding, E. Mutoro (Massachusetts Institute of Technology), L. Baggetto, N. J. Dudney (Oak Ridge National Laboratory), Z. Liu (Lawrence Berkeley National Laboratory), and Y. Shao-Horn (Massachusetts Institute of Technology) |
| 16:20 | 1169 | Electrochemistry and Transport Limitations of Non-Aqueous Li-Air Batteries from First-Principles V. Viswanathan, J. S. Hummelshøj, A. C. Luntz, and J. K. Nørskov (Stanford University) |
| 16:40 | 1170 | Electrochemical Strain Spectroscopy: Monitoring Partially Reversible Electrochemical Processes In Situ on Li-Air Battery Electrolytes T. M. Arruda, A. Kumar, S. Jesse, and S. V. Kalinin (Oak Ridge National Laboratory) |
Thursday, October 11, 2012 | ||
Nautilus 1, Mid-Pacific Conference Center, Hilton Hawaiian Village | ||
Interactions | ||
Co-Chairs: V. Thangadurai, Jianming Zheng | ||
| Time | Progr# | Title and Authors |
| 08:00 | 1171 | (Invited) Critical Components of Rechargeable Li-Air Batteries J. Zhang, W. Xu, J. Xiao, E. Nasybulin, Y. Shao, D. Mei, and J. Zhang (Pacific Northwest National Laboratory) |
| 08:40 | 1172 | A High Energy Density Rechargeable Zinc-Air Battery for Automotive Application G. Toussaint, P. Stevens (Electricité de France), R. Rouget, and F. Fourgeot (SCPS) |
| 09:00 | 1173 | Examining the Interplay of Electrolyte, Electrocatalyst, and Cathode Architecture En Route to High-Capacity, Rechargeable Li-O2 Batteries C. N. Chervin, J. W. Long, M. J. Wattendorf, N. W. Kucko, and D. Rolison (U.S. Naval Research Laboratory) |
| 09:20 | 1174 | Air Dehydration Membranes for Ambient Operation of Non-Aqueous Lithium-Air Batteries J. Zhang, W. Xu, J. Xiao, X. Chen, E. Nasybulin, and J. Zhang (Pacific Northwest National Laboratory) |
| 09:40 | Intermission (20 Minutes) | |
| 10:00 | 1175 | (Invited) Understanding the Cathode Processes in the Non-Aqueous Li-O2 Battery O. Fontaine, Y. Chen, S. A. Freunberger, Z. Peng, and P. Bruce (University of St. Andrews) |
| 10:40 | 1176 | The effect of Layered Structures of Perovskite Oxide Catalyst on Activity for Oxygen-Reduction Reaction M. Matsuda, T. Murota (Santoku Corportation), and T. Takeguchi (Hokkaido University) |
| 11:00 | 1177 | Understanding of Electrolyte Stability and Its Impact to Lifespan of Li-O2 Battery J. Shui, J. Okasinski, D. Zhao, J. Almer, and D. Liu (Argonne National Laboratory) |
| 11:20 | 1178 | Electrospun Nanofibrous Bifunctional LaNiO3 Catalysts for Oxygen Reduction Reaction and Oxygen Evolution Reaction J. Wu and Z. Chen (University of Waterloo) |
| 11:40 | 1179 | Synthesis and Oxygen Reduction Catalytic Properties of La0.6Ca0.4CoO3 Fine Powders by Sintering with Carbonate S. Takase, Y. Kanda, and Y. Shimizu (Kyushu Institute of Technology) |
Other Media Systems | ||
Co-Chairs: Wei Wang, Yangchuan Xing | ||
| Time | Progr# | Title and Authors |
| 13:20 | 1180 | (Invited) Recent Progress in as Highly Efficient Non-Precious Catalysts for Oxygen Reduction Reactions in Alkaline Solutions J. Cho (Ulsan National Institute of Science and Technology) |
| 13:50 | 1181 | (Invited) Secondary Li-Air Batteries with Acidic Aqueous Catholytes O. Crowther (MaxPower Inc) and M. Salomon (MaxPower, Inc.) |
| 14:20 | 1182 | (Invited) Aqueous Electrolyte-Based Metal-Air Batteries: Challenges for Rechargeable Zinc Electrodes and Reversible Air Electrodes T. Abe and K. Miyazaki (Kyoto University) |
| 14:50 | 1183 | Enhancement of Oxygen Transport in the Storage Electrode of a High Temperature Secondary Metal-Air Battery Based on an Oxygen Ion Conducting Electrolyte H. Landes, R. Reichenbacher, C. Schuh (Siemens Corporate Technology), T. Soller (Siemens AG), G. Zhang, and C. Lu (Siemens Energy Inc) |
| 15:10 | 1184 | Hybrid Li-air Battery with Sulfuric Acid Electrolyte and Buckypaper Air Cathode Y. Li, K. Huang (Missouri University of Science and Technology), and Y. Xing (University of Missouri) |
| 15:30 | 1185 | Improvement in Discharge Performance of an MH/Air Secondary Battery with Multiple Electrodes M. Mizutani, M. Morimitsu (Doshisha University), and Y. Wada (Kyushu Electric Power Co., Inc.) |
| 15:50 | 1186 | Comparison of Room Temperature Sodium/Oxygen- and Lithium/Oxygen-Batteries with Liquid Electrolyte P. Hartmann, C. Bender (Justus-Liebig-University Giessen), A. Garsuch, A. Dürr (BASF SE), J. Janek (Justus Liebig University Gießen), and P. Adelhelm (Justus-Liebig-University Giessen) |
| 16:10 | 1187 | Effect of Bismuth Additives on the Performance of Iron Electrodes in Alkaline Batteries A. Manohar, C. Yang, S. Malkhandi, B. Yang, G. Prakash, and S. Narayanan (University of Southern California) |