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
X1 - Three Dimensional Battery Architectures
Physical Electrochemistry/Battery
Tuesday, October 14, 2003
Senate Room, Lobby Level
Energy Storage in 3D
Co-Chairs: H.S. White and J.W. Long
Time | Abs# | Title |
2:00 | 1276 |
Carbon-MEMS Architectures for 3-D Microbattery - C. Wang, L. Taherabadi, A. Randhawa, M. Madou (University of California, Irvine), C. Kwon, and B. Dunn (University of California, Los Angeles) |
2:30 | 1277 |
Fabrication of 3D Vanadium Oxide Nanoroll Cathode Arrays - G. Baure, C.-W. Kwon, F. Chamran, C.-J. Kim, and B. Dunn (University of California, Los Angeles) |
3:00 | 1278 |
Development of 3D-Microbattery -Progress Report - D. Golodnitsky, V. Yufit (Tel Aviv University), M. Nathan, and E. Peled (Tel Aviv) |
3:30 | |
Fifteen-Minute Intermission |
3:45 | 1279 |
Origami Fabrication of Electrochemical Device on the Micrometer Scale - Y. Shao-Horn, C. Hidrovo, S. Jurga, H. smith, and G.B. Barbastathis (Massachusetts Institute of Technology) |
4:15 | 1280 |
Three-Dimensional Lithium-Ion Batteries Based on Non-Woven Carbon Fabrics - Q. Horn, K. White (Physical Sciences, Inc.), Y. Shao-Horn (Massachusetts Institute of Technology), and J. Lennhoff (Physical Sciences, Inc.) |
4:45 | 1281 |
Electrochemical Devices Fabricated by Colloidal-Scale Self-Organization - Y.-M. Chiang, W.D. Moorehead, S.M. Tobias, and S.-Y. Chung (Massachusetts Institute of Technology) |
5:15 | 1282 |
Anomalous Potentials in Lithium Ion Cells: Making the Case for 3-D Modeling of 3-D Systems - E. Scott, G. Tam, A. Bruce, and C. Schmidt (Medtronic Incorporated) |
5:45 | |
Informal Discussion |
Exhibit Hall, Ground Level
Technical Exhibit and Poster Session, 7:00 - 9:00 PM
Wednesday, October 15, 2003
Senate Room, Lobby Level
3-D Nanoarchitectures: Assembly and Characterization
Co-Chairs: B. Dunn and M.L. Anderson
Time | Abs# | Title |
10:00 | 1285 |
Integrating the Multifunction Necessary for Electrochemical Power into Mesoporous Nanoarchitectures - J. Long, C. Rhodes, M. Doescher, and D. Rolison (Naval Research Laboratory) |
10:30 | 1286 |
Direct Assembly of 3D Carbon Nanofiber Electrodes for Electrochemical Power Sources - S. Maldonado and K. Stevenson (University of Texas at Austin) |
11:00 | 1287 |
Designing 3-D Hybrid Nanoarchitectures as High-Performance Electrochemical Capacitors - J. Long, C. Rhodes, A. Young, M. Doescher, and D. Rolison (Naval Research Laboratory) |
11:30 | 1288 |
Synthesis and Solid-State Characterization of Ultrathin Polymers for 3-D Nanostructured Battery Architectures - C. Rhodes, M. Doescher, J. Long, and D. Rolison (Naval Research Laboratory) |
3-D Nanoarchitectures: Materials and Fabrication
Co-Chairs: D. Rolison and Y. Shao-Horn
Time | Abs# | Title |
2:00 | 1289 |
Three Dimensionally Ordered Macroporous (3DOM) Solids as Nanostructured Electrode Materials for Li-ion Batteries - K. Poeppelmeier, S. Barry, and E. Sorensen (Northwestern University) |
2:30 | 1290 |
Colloidal Cathode Materials for Solution Processing of 3-Dimensional Nanometer Scale Batteris – Optimizing the Performance of Vanadia Nanorolls - D. Sun, C.W. Kwon, G. Baure, E. Richman, B. Dunn, and S. Tolbert (UCLA) |
3:00 | 1291 |
Three Dimensionally Nanostructured Anode and Cathode Materials Prepared by Colloidal Crystal Templating - A. Stein, J. Lytle, N. Ergang, S. Sokolov, and H. Yan (University of Minnesota) |
3:30 | |
Fifteen-Minute Intermission |
3:45 | 1292 |
3-D Microbattery Fabrication - F. Chamran (University of California at Los Angeles), M. Christophersen (University of Rochester, NY), and C.-J."C. Kim (University of California at Los Angeles) |
4:15 | 1293 |
Design and Implementation of New Electrode Architectures for High Capacity Li-ion Battery Cathodes - K.E. Swider-Lyons and A.M. Stux (Code 6171 Naval Research Laboratory) |
4:45 | 1294 |
Three Dimensional Cathode Materials From Electrospinning - K. White (Physical Sciences Inc.) |
5:15 | 1295 |
High Capacity, Reversible Silicon Thin Film Anodes for Lithium-Ion Batteries - J. Maranchi (Carnegie Mellon University), A. Hepp (NASA Glenn Research Center), and P. Kumta (Carnegie Mellon University) |
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