204th Meeting of The Electrochemical Society, Co-sponsored in Part by the Electronics Division of The American Ceramic Society
October 12-October 16, 2003
PROGRAM INFORMATION
B2 - Power Sources for Transportation Applications
Battery/Energy Technology
Tuesday, October 14, 2003
Great Hall West, Ground Level
Performance Testing and Evaluation
Co-Chairs: K. Zaghib and T.Q. Duong
Time | Abs# | Title |
8:30 | 232 |
The DOE’s Advanced Technology Development Program: An Overview - V. Battaglia (Argonne National Laboratory) and T. Duong (United States Department of Energy) |
8:45 | 233 |
Overview of Performance Testing of the Advanced Technology Development Program Gen 2 Cells - T. Murphy, C. Motloch, J. Christophersen, R. Wright, K. Gering, C. Ho (Idaho National Engineering and Environmental Laboratory), I. Bloom, S. Jones, G. Henriksen, V. Battaglia (Argonne National Laboratory), T. Duong, and J. Barnes (U.S. Department of Energy) |
9:00 | 234 |
Performance Evaluation of the Advanced Technology Development Program Gen 2 Cells - J.P. Christophersen, K.L. Gering, C.G. Motloch, R.B. Wright, C.D. Ho (Idaho National Engineering and Environmental Laboratory), I.D. Bloom, S.A. Jones, V.S. Battaglia (Argonne National Laboratory), and T.Q. Duong (Department of Energy) |
9:15 | 235 |
EIS of ATD Gen 2 Lithium-Ion Cells - I. Bloom, S. Jones, G. Henriksen, V. Battaglia (Argonne National Laboratory), C. Motloch, J. Christophersen, J. Belt, C. Ho, and R. Wright (Lockheed Martin Idaho Technologies Co.) |
9:30 | 236 |
Implications of dV/dQ for the Analysis of Performance Fade in Lithium-Ion Batteries - I. Bloom, S. Jones, A. Jansen, G. Henriksen, V. Battaglia (Argonne National Laboratory), C. Motloch, J. Christophersen, J. Belt, C. Ho, and R. Wright (Lockheed Martin Idaho Technologies Co.) |
10:00 | 237 |
Freedom Car Testing of Selected Commercial Ultracapacitors - R.B. Wright, D.K. Jamison (INEEL), and T.Q. Duong (US Department of Energy) |
10:15 | |
Fifteen-Minute Intermission |
10:30 | 238 |
The Development of LiFePO4-Based High Power Lithium-Ion Batteries - J. Shim, A. Sierra, and K. Striebel (Lawrence Berkeley National Laboratory) |
10:45 | 239 |
Low cost Li-ion Polymer Batteries For Transportation - K. Zaghib (Institut de Recherche d’Hydro-Quebec), K. Striebel (Lawrence Berkeley National Laboratory), A. Guerfi (Institut de Recherche d’Hydro-Quebec), J. Shimb (Lawrence Berkeley National Laboratory), M. Armand, and M. Gauthier (Universite de
Montreal) |
11:00 | 240 |
Evaluation of Lithium Gel Polymer Cells for High-Power Applications - B. Oh, S.Y. Yoon, and K. Amine (Argonne National Laboratory) |
11:15 | 241 |
Flexible Low-Cost Packaging for Lithium-Ion Batteries - A.N. Jansen, K. Amine, D.J. Chaiko, G.L. Henriksen (Argonne National Laboratory), T. Hosokawa, K. Tanaka, and H. Saen (Sumitomo Electric Flat Components, Inc.) |
11:30 | 242 |
Effect of Additives and Anode Carbon on Heat and Gas Generation in Li-Ion Cells - E.P. Roth, D. Doughty (Sandia National Laboratories), K. Amine, and G. Henriksen (Argonne National Laboratory) |
11:45 | 243 |
Thermal Behavior of Different Cathode Materials Using LiBOB Based Electrolyte - Y. Hyung, D. Vissers, G. Henriksen, K. Amine (Argonne National Laboratory), P. Roth, and D. Doughty (Sandia National Laboratories) |
Diagnostics of Failure Modes
Co-Chairs: Z. Ogumi and V.S. Battaglia
Time | Abs# | Title |
2:00 | 244 |
Characterization of High-Power Lithium-Ion Cells - Performance and Diagnostic Analysis - K. Striebel, J. Shim, E. Cairns, R. Kostecki, Y.-J. Lee, V. Zhuang, T. Richardson, P. Ross, X.Y. Song, and V. Zhuang (Lawrence Berkeley National Laboratory) |
2:15 | 245 |
Synchrotron X-Ray Studies of the Solid Electrolyte Interface on Cycled Lithium-ion Battery Electrodes - J. McBreen, M. Balasubramanian, X.-Q. Yang, H.S. Lee, W.-S. Yoon, A. Moodenbaugh (Brookhaven National Laboratory), D.A. Fischer, Z. Fu (National Institute of Standards and Technology), and D. Abraham (Argonne National Laboratory) |
2:30 | 246 |
Fade Mechanisms in High-Power Lithium-ion Cells for Transportation Applications - D. Abraham, D. Dees (Argonne National Laboratory), E. Sammann, R. Haasch, and R. Twesten (University of Illinois at Urbana-Champaign) |
2:45 | 247 |
Time Resolved X-ray Diffraction Study of the Thermal Degradation of Cathode Materials Used in Li-Ion Batteries - M. Balasubramanian, W.S. Yoon, X.Q. Yang, J. McBreen, and J. Hanson (Brookhaven National Laboratory) |
3:00 | 248 |
AC Impedance Electrochemical Modeling of Lithium-Ion Positive Electrodes - D. Dees (Argonne National Laboratory), E. Gunen (Illinois Institute of Technology), D. Abraham, A. Jansen (Argonne National Laboratory), and J. Prakash (Illinois Institute of Technology) |
3:15 | |
Fifteen-Minute Intermission |
3:30 | 249 |
Lithium Ion Transfer at the Interface Between Electrolyte / Non-Graphitizable Carbon Electrode - T. Doi, T. Abe, K. Miyatake, Y. Iriyama, and Z. Ogumi (Kyoto University) |
3:45 | 250 |
Lithium-Ion Transfer at Interface between LiMn_2O4 Thin Film and Electrolyte - I. Yamada, T. Abe, Y. Iriyama, and Z. Ogumi (Kyoto University) |
4:00 | 251 |
The Relationship between the Structural Changes and the Capacity Retention of Oxygen Stoichiometric LiMn2O4 Type Cathode Materials during Cycling Studied by In Situ X-Ray Diffraction - X.-Q. Yang, W.-S. Yoon, M. Balasubramanian, J. McBreen (Brookhaven National Laboratory), B. Deng, X.-Q. Wang, M. Yoshio (Saga University), and M. Okada (TOSOH Corporation) |
4:15 | 252 |
Soft X-ray Absorption Spectroscopic Studies of Li_1-xNi0.5Mn0.5O2 for Li Rechargeable Batteries - W.-S. Yoon, X.-Q. Yang, M. Balasubramanian, and J. McBreen (Brookhaven National Lab.) |
4:30 | 253 |
Modeling Capacity Fade in Lithium-Ion Cells - B.Y. Liaw (University of Hawaii at Manoa), R. Jungst, G. Nagasubramanian, and D. Doughty (Sandia National Laboratories) |
4:45 | 254 |
Modeling and Experimental Validation of the Electrochemical Behavior of a Li-ion Battery During Repetitive Pulses of Charge and Discharge - R. Elger and G. Lindbergh (Royal Institute of Technology, KTH) |
Wednesday, October 15, 2003
Low Cost Components
Co-Chairs: Z. Ogumi and A.R. Landgrebe
Time | Abs# | Title |
10:00 | 255 |
Battery-Level Material Cost Model Facilitates High-Power Li-Ion Battery Cost Reductions - G. Henriksen, K. Amine, J. Liu, and P. Nelson (Argonne National Laboratory) |
10:15 | 256 |
Solubility and Stabilization of LiMn2O4 Spinel Electrodes in Lithium Batteries - J.-S. Kim, J. Vaughey, C. Johnson, and M. Thackeray (Argonne National Laboratory) |
10:30 | 257 |
Spinel Lithium Manganese Oxide in LiBOB Electrolyte for High Power Li-ion Battery Application - J. Liu, A.J. Kahaian, and K. Amine (Argonne National Laboratory) |
10:45 | 258 |
LiBOB Based Electrolytes for Li-ion Batteries for Transportation Applications - T.R. Jow, M. Ding, K. Xu, S. Zhang, J. Allen (Army Research Laboratory), and K. Amine (Argonne National Laboratory) |
11:00 | 259 |
Effect of Surface Coating On the Electrochemical Properties of Li(Ni_0.5-xCo2xMn0.5-x)O2 Cathode Materials for Li Secondary Batteries - S.-H. Kang, S.-Y. Yoon, and K. Amine (Argonne National Laboratory) |
11:15 | 260 |
A Novel Cathde Material for Use in Li-Ion Rechargeable Batteries for HEV - C. Xu, D. Kaiser, B. Glomski, M. Fay, L. Wang, and J. Miller (T/J Technologies, Inc.) |
11:30 | 261 |
Nanocomposite Packaging - D. Chaiko (Argonne National Laboratory) |
11:45 | 262 |
Vanadium Pentaoxide as Electrode Material for Electrochemical Capacitors - R.R. Nagireddy and R.G. Reddy (The University of Alabama) |
Fuel Cells
Co-Chairs: I.B. Weinstock and A.J. Salkind
Time | Abs# | Title |
2:00 | 263 |
On the Origins of the Performance Loss in Alkaline Fuel Cells - P. Gouerec, E. Sanchez-Cortezon, and J.H. Miners (Eident Energy SAS) |
2:15 | 264 |
Managing Methanol Crossover in Direct Methanol Fuel Cells by Periodic Fuel Delivery - J. Gonder and C.-Y. Wang (The Pennsylvania State University) |
2:30 | 265 |
Water Management in PEMFCs - P. Berg, K. Promislow (Simon Fraser University), J. St-Pierre, J. Stumper (Ballard Power Systems), and B. Wetton (University of British Columbia) |
2:45 | 266 |
Investigation of the Behavior of PTFE in Low Temperature Fuel Cell Components during Electrochemical Stressing - M. Schulze and E. Gulzow (Deutsches Zentrum fur Luft- und Raumfahrt e.V.) |
3:00 | |
Fifteen-Minute Intermission |
3:15 | 267 |
Studies of Different Commercial Pt Cathode Catalysts for Improving the Performance of HTMEAs - Y. Song (University of Connecticut), L. Bonville, R. Kunz (Ionomem Corporation), J. Fenton, Y. Wei, J. Li, M. Trahiotis, and H. Xu (University of Connecticut) |
3:30 | 268 |
Modeling the Hydrogen Kinetics for the Porous Anode in a PEFC - K. Wiezell and G. Lindbergh (The Royal institute of Technology) |
3:45 | 269 |
A Mechanistic Model for Fuel Cell System Control - J. Wu, P. Rajkumar, Q. Yan, W. Gao, and S.-Y. Choe (Mississippi State University) |
4:00 | 270 |
Transient Model-based PEM Fuel Cell System Control - W. Gao (Mississippi State University) |
4:15 | 271 |
Integrated Multi-Resolution Fuel Cell Simulation - J. Wu, Q. Liu, and S.-Y. Choe (Mississippi State Univeristy) |
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