Co-Chairs: K. Striebel and K. Zaghib
| Time | Abs# | Title |
|---|---|---|
| 10:00 | 310 | What Happens Between Stage 2 and Stage 1 Lithium-Graphite Intercalation Compound? - R. Yazami, A. Martinent, Y. Reynier (LEPMI-CNRS 5631), and B. Fultz (California Institute of Technology) |
| 10:30 | 311 | Electrochemical Intercalation of Lithium Ion within Graphite from Propylene Carbonate Solutions - Z. Ogumi, S.K. Jeong, M. Inaba, Y. Iriyama, and T. Abe (Kyoto University) |
| 11:00 | 312 | Negative Electrodes for Li-Ion Polymer Batteries - K. Zaghib (Institut de Recherche d’Hydro-Quebec) and K. Kinoshita (Lawrence Berkeley National Laboratory) |
| 11:15 | 313 | Thermal Stability of Peanut Shell-Derived Pyrolytic Carbon Anodes - I. Watanabe, J.-I. Yamaki (Kyushu University), Y. Lin, and G. Fey (National Central University) |
| 11:30 | 314 | Modeling Volume Changes due to Lithium Intercalation in a Carbon Particle - G. Botte (Ohio University) |
| 11:45 | 315 | Mixed Silicon-graphite Composites as Anode Material for Lithium Ion Batteries. Influence of the Graphite Type on the Properties of the Material - N. Dimov, S. Kugino, M. Yoshio (Saga University), K. Fukuda, and T. Umeno (Mitsui Mining Co. Ltd.) |
Co-Chairs: Z. Ogumi and J. Dahn
| Time | Abs# | Title |
|---|---|---|
| 2:00 | 316 | Original Structural Behavior induced by Electrochemical Redox Reaction. A Theoretical Study of the LixTiP4 Anode Material - M.-L. Doublet, F. Lemoigno, M.-P. Bichat, F. Favier, and L. Monconduit (CNRS) |
| 2:30 | 317 | High Lithium Capacity and High Rate Capabilities in Nanophase Germanium Electrodes - J. Graetz, C. Ahn, R. Yazami, and B. Fultz (California Institute of Technology) |
| 2:45 | 318 | Combinatorial Investigations of the Si-A-B Ternary System - M.D. Fleischauer, J.M. Topple, T.D. Hatchard, and J.R. Dahn (Dalhousie University) |
| 3:00 | 319 | Improved Cyclability of Metal Silicides - Z. Shi and M. Alamgir (Compact Power, Inc.) |
| 3:15 | 320 | Electrochemical Characteristics of Silicon-coated Graphite for Anodic Active Material of Lithium Secondary Battery - J.K. Lee, W. Choi, M. Lee (Korea Institute of Science and Technology), D. Byun (Korea University), and B.W. Cho (Korea Institute of Science and Technology) |
| 3:30 | 321 | In-situ Resistance Measurements of Metallic Alloy Electrodes - Z. Chen (Dalhousie Uniersity), M. Fleischauer (Dalhousie University), L. Christensen (3M Co.), and J. Dahn (Dalhousie University) |
| 3:45 | Fifteen-Minute Intermission | |
| 4:00 | 322 | Sn/C Nanocomposite Anodes for Li-Ion Batteries - I.-S. KIM, P. Kumta (Carnegie Mellon University), and G. Blomgren (Blomgren Consulting Services Ltd.) |
| 4:15 | 323 | Kinetics Enhancement of Ni and Sn Coated Graphite Electrode for Lithium Intercalation - I. Sandu, T. Brousse (Ecole polytechnique de l'Universite de Nantes), R. Yazami (CNRS), and B. Fultz (California Institute of Technology) |
| 4:30 | 324 | Characteristics of Electro-Deposited Sn-Ni Alloy as Lithium Ion Secondary Battery Anode - T. Momma, H. Mukaibo, T. Sumi, T. Yokoshima, and T. Osaka (Waseda University) |
| 4:45 | 325 | Minimizing Mechanical Degradation of Li-Sn Alloy Anodes for Li-ion Batteries - M. Heath, C. Silkowski, P. Sholtes, C. McIntyre, and J. Miller (T/J Technologies, Inc.) |
Co-Chairs: D. Guyomard and R. Yazami
| Time | Abs# | Title |
|---|---|---|
| 8:00 | 326 | Preparation of Porous Cathode Films for all Solid-State Lithium Batteries and these Properties - S. Koike, K. Tatsumi (National Institute of Advanced Industrial and Technology), and J. Schoonman (Delft University of Technology) |
| 8:30 | 327 | Origin of Entropy of Intercalation of Li into LixCoO2 - B. Fultz, Y. Reynier, T. Swan-Wood, J. Graetz (California Institute of Technology), P. Rez (Arizona State University), and R. Yazami (California Institute of Technology) |
| 8:45 | 328 | CBED Measurement of Unit Cell Parameters in Li_1-xCoO2 - H. Gabrisch (University of New Orleans), R. Yazami (CNRS), and B. Fultz (California Institute of Technology) |
| 9:00 | 329 | Why Bother Coating LiCoO2? - Z. Chen and J. Dahn (Dalhousie University) |
| 9:15 | 330 | Comparison of Al_2O3- and AlPO4-Coated LiCoO2 Cathode Materials for a Li-Ion Cell - B. Park (Seoul National University) and J. Cho (Kumoh National Institute of Technology) |
| 9:30 | Thirty-Minute Intermission | |
| 10:00 | 331 | Unique Behavior of Novel Positive Electrode Material for Lithium Ion Batteries Composed of Li-Mn Spinel and Li-Ni-Co-Mn Oxide at an Elevated Temperature - T. Nohma, H. Kitao, N. Nakanishi, and T. Ikemachi (Sanyo Electric Co.,Ltd.) |
| 10:30 | 332 | A Comparison of the Low-Voltage Behavior of Composite xLi2M'O3.(1-x)LiMO2 (0 |
| 10:45 | 333 | Structural Evolution Upon Li Insertion of a New Vanadium Phosphate Li4VO(PO4)2 - M. Dubarry, J. Gaubicher, P. Moreau (Institut des Materiaux Jean Rouxel), G. Wallez (Laboratoire de Cristallochimie du Solide), M. Morcrette (Laboratoire de Reactivite et de Chimie des Solides), M. Quarton (Laboratoire de Cristallochimie du Solide), and D. Guyomard (Institut des Materiaux Jean Rouxel) |
| 11:00 | 334 | Electrochemical Performance of Aluminum-substituted Layered Manganese Oxide Intergrowth Structures - M. Doeff, J. Hollingsworth, and M. Dolle (Lawrence Berkeley National Laboratory) |
| 11:15 | 335 | Electrochemical and Structural Characteristics of Perovskite-Like Cathode Materials for Lithium Power Sources - T. Sutto (NSWC-DD) |
| 11:30 | 336 | Charge/Discharge Properties of Stable Radical Cells with Carbon Anodes - J. Iriyama, K. Nakahara, S. Iwasa, Y. Morioka, M. Suguro, and M. Satoh (NEC Corporation) |
| 11:45 | 337 | Influence of Preparation on the Electrochemical Performance of Vanadium Oxide Nanotubes - S. Nordlinder, T. Gustafsson, and K. Edstrom (Uppsala University) |
Co-Chairs: Y.M. Chiang and T. Ohzuku
| Time | Abs# | Title |
|---|---|---|
| 2:00 | 338 | Capacity Fading Mechanisms of Spinel Lithium Manganese Oxides - A. Manthiram and Y. Shin (University of Texas at Austin) |
| 2:30 | 339 | Local Structure of Spinel Oxides for Positive Electrode in Lithium Batteries - C. Julien (Universite Pierre et Marie Curie), R. Baddour-Hadjean (CNRS), M. Massot (Universite Pierre et Marie Curie), and J.-P. Pereira-Ramos (CNRS) |
| 2:45 | 340 | Reaction Behavior of LiMn2-yMyO4 (M = Co, Cr) Cathode Materials for Lithium Ion Batteries - S.-H. Wu and Y.-L. Hung (Tatung University) |
| 3:00 | 341 | Investigation of Some Novel Cathode Materials, LiMn_(2-x)CuxO4, for Use in Lithium Ion Rechargeable Batteries - N. Kamarulzaman (University Technology of MARA), W.J. Basirun, and A.K. Arof (University Malaya) |
| 3:15 | 342 | Capacity Fading of Lithium-ion Batteries Using Li1+XMe_YMn2-X-YO4 Cathode at Higher Temperatures - H. Morishima and N. Takami (Toshiba) |
| 3:30 | 343 | Enhancement of Cycle Performance of Spinel Manganese Oxide by Coating with Transition Metal Oxide - K.Y. Chung and K.-B. Kim (Yonsei University) |
| 3:45 | 344 | Doped Lithium Iron Phosphate Cathodes for High Power Lithium Batteries - S.-Y. Chung, J.T. Bloking (Massachusetts Institute of Technology), P. Limthongkul (National Metal and Materials Technology Center), A.M. Andersson (Massachusetts Institute of Technology), A.S. Gozdz (A123Systems), and Y.-M. Chiang (Massachusetts Institute of Technology) |
| 4:00 | Fifteen-Minute Intermission | |
| 4:15 | 345 | Confirmation of Long-Term Cyclability and High Thermal Stability of LiFePO_4 in Prismatic Lithium Ion Cells - M. Takahashi, H. Ohtsuka, K. Akuto, and Y. Sakurai (NTT Corporation) |
| 4:30 | 346 | Comparison of Overcharge Behavior of AlPO4-Coated LiCoO2 and LiNi0.8Co0.1Mn0.1O2 Cathode Materials in Li-Ion Cells - J. Cho (Kumoh National Institute of Technology) and B. Park (Seoul National Unversity) |
| 4:45 | 347 | Electronically Conductive Lithium Iron Phospho-olivines - J. Allen, K. Xu, S. Zhang, M. Ding, and R. Jow (US Army Research Lab) |
| 5:00 | 348 | Comparison of LiFePO4 from Different Sources - K. Striebel, J. Shim, V. Srinivasan, and J. Newman (Lawrence Berkeley National Laboratory) |
| 5:15 | 349 | Characterization of Lithium Intercalation Process in Amorphous Manganese Oxides - J.J. Xu, H. Ye, G. Jain, and J. Yang (Rutgers, The State University of New Jersey) |
| 5:30 | 350 | Sonochemical Synthesis of Nanocomposite of Manganese Oxide With Acetylene Black for The Use of High Power Battery - H. Kawaoka, M. Hibino, H.S. Zhou, and I. Honma (National Institute of Advanced Industrial Science and Technology (AIST)) |
Co-Chairs: K. Striebel and D. Guyomard
| Time | Abs# | Title |
|---|---|---|
| o | 351 | Cyclability Improvement of Natural Graphite Anode for Lithium-Ion Batteries - J. Shim and K. Striebel (Lawrence Berkeley National Laboratory) |
| o | 352 | AC Impedance Studies on Negative Electrode of Lithium ion Battery - T. Piao (Quallion LLC), D. Zhou (Second Sight LLC), and H. Tsukamoto (Quallion LLC) |
| o | 353 | Characteristics of a Graphite Electrode for Li ion Batteries in which Particles are Oriented along the Magnetic Field - K. Matsubara, T. Tsuno, and A. Takamuku (Samsung Yokohama Research Institute) |
| o | 354 | Understanding the Effect of Composition on Amorphous Alloy Electrochemical Performance - M.D. Fleischauer, J.M. Topple, T.D. Hatchard, and J.R. Dahn (Dalhousie University) |
| o | 355 | Electrochemical Performance of the a-Si_1-xSnx Binary System - T. Hatchard, M. Fleischauer, and J. Dahn (Dalhousie University) |
| o | 356 | The Effect of AlPO4 Coating Concentration and Annealing Temperature in SnO2 Materials - D. Son (Seoul National University), J. Cho (Kumoh National Institute of Technology), and B. Park (Seoul National University) |
| o | 357 | Li-Ion Cells for Terrrestrial Robots - K. Chin, M. Smart, S. Narayanan, and R. Bugga (Jet Propulsion Laboratory) |
| o | 358 | Understanding Low Temperature Behavior of Li-Ion Batteries - S.S. Zhang, K. Xu, and T.R. Jow (Army Research Laboratory) |
| o | 359 | Capacity Prediction of Pouch Lithium-ion Battery - G. Ning, B. Haran, and B. Popov (University of South Carolina) |
| o | 360 | A Study on Electrochemical Characteristics of TMPETA-Based Gel Polymer Electrolyte - S.-I. Kim, H.-S. Kim, S.-H. Na, S.-I. Moon (Korea Electrotechnology Research Institute), S.-P. Kim (Saehan Enertech Inc.), and N.-J. Jo (Pusan National University) |
| o | 361 | Evaluation of Li4Ti5O12 Synthesis Routes for Power Applications, in Association with LiCoO2, LiMn2O4 and Optimized LiFePO4 - S. Martinet and F. Le Cras (CEA) |
| o | 362 | Oxalate Compounds as an Additive for Rechargeable Li/S Battery System - J.Y. Kim, Y.G. Ryu, M.D. Cho, and S.M. Lee (SAIT) |
| o | 363 | Synthesis of Manganese Oxide Doped with Transition Metals and Its Evaluation as A Cathode Material for Rapid Dischargeable Lithium Batteries - T. Watanabe, M. Hibino, H. Zhou, and I. Honma (National Institute of Advanced Industrial Science and Technology) |
| o | 364 | Synthesis, Characterization, and Electrochemical Behavior of a New Al-doped MnO2 Family - D. Xia (Beijing University of Tcehnology) |
| o | 365 | Influence of Synthesis Conditions on the Morphology of gamma-MnO_2 and gamma-MnO2(Co) Compounds Electrodeposited Hydrothermally - E. Machefaux, L.I. Hill, and D. Guyomard (IMN-CNRS) |
| o | 366 | Complete Overcome of Thermal Instability in LixNi0.8Co0.1Mn0.1O2 Cathode Materials by AlPO4-Nanoparticle Coating - J. Cho (Kumoh National Institute of Technology), H. Kim, and B. Kim (Seoul National University) |
| o | 367 | Enhancement of Electrochemical and Thermal Stability of LiNiO$_{2} Modified with Precursor Coating - Y. Zhao (Beijing University of Thechnology) and D. Xia (Beijing University of Technology) |
| o | 368 | LiNi0.8Co0.2O2 Prepared by Combustion Solution Method and Its Electrochemical Performances - P. Periasamy (CECRI), H.-S. Kim, S.-H. Na, and S.-I. Moon (Korea Electrotechnology Research Institute) |
| o | 369 | Enhanced Electrochemical and Thermal Properties of LiNi0.9Co0.1O2 Cathode Materials by AlPO4 Coating - D. Ahn (Seoul National University), J. Cho (Kumoh National Institute of Technology), and B. Park (Seoul National University) |
| o | 370 | Electrochemical Properties of Layered Li[Li_0.2Cr0.4Mn0.4]O2 as Cathode Materials for Li-ion Batteries - Y. Chen, G.X. Wang, J.Z. Wang, H.K. Liu, and S.X. Dou (University of Wollongong) |
| o | 371 | Raman Evidence of Spinel Formation in Delithiated Cobalt Oxide - J. Graetz (Caltech), C. Julien (Univerite Pierre et Marie Curie), and R. Yazami (Caltech) |
| o | 372 | Effect of Metal Oxides Coating on the Surface of LiCoO2 for the Cathode of Lithium Secondary Battery - J.K. Lee, S. Oh (Korea Institute of Science and Technology), D. Byun (Korea University), and B. Cho (Korea Institute of Science and Technology) |
| o | 373 | Overview of LiFePO4/C Composite Practical Behavior - F. Le Cras, C. Bourbon, and S. Franger (Commissariat a l'Energie Atomique) |
| o | 374 | Effect of Conductive Additives in LiFePO4 Cathode for Lithium-Ion Batteries - J. Shim (Lawrence Berkeley National Laboratory), A. Guerfi, K. Zaghib (Institut de Recherche d'Hydro-Quebec), and K. Striebel (Lawrence Berkeley National Laboratory) |
| o | 375 | Electronic Structure of LiFePO4 and Implications for Electronic Transport - Y.-N. Xu, W.-Y. Ching (University of Missouri - Kansas City), S.-Y. Chung, J.T. Bloking, and Y.-M. Chiang (Massachusetts Institute of Technology) |
| o | 376 | Fine-particle Li0.98Mg0.02FePO4 Synthesized by a Novel Modified Solid-State Reaction - Z. Guo, H. Liu, H. Liu, and S. Dou (University of Wollongong) |
| o | 377 | Characterization of a Porous Uranium Dioxide Electrode in an Electrochemical Cell Consisting of Lithium Salts and Organic Solvents using Cyclic Voltammetry and Impedance Spectroscopy - P. Dunbar, R. Lee, and W. Tracinski (unknown) |
| o | 378 | Phase Stability and Electronic Structure of NaMnO_2. - O. Velikokhatnyi, C.-C. Chang, and P. Kumta (Carnegie Mellon University) |
| o | 379 | Li5FeO4 and its Analogues as Electrode of Lithium Ion Batteries - N. Imanishi, A. Hirano, M. Ishihara, M. Ueda, Y. Takeda (Mie University), and M. Tabuchi (AIST Kansai) |
| o | 380 | Comparison of LiNi_0.5Mn1.5O4 Spinel having Two Space Groups; Fd-3m and P4332 - J. Kim (Hanyang University), S.-T. Myung (Iwate University), C.-S. Yoon, and Y. Sun (Hanyang University) |
| o | 381 | The Effects of Cooling Conditions on the Properties of Lithium Manganese Spinels - Y.-J. Lin and N.-J. Chen (Tatung University) |
| o | 382 | Characteristics of Chromium Substituted Lithium Manganate - M. Murali, J. Jayachandran (Central E lectrochemical Research Institute), T. Trivedi, and R. Raghavan (Central Electrochemical Research Institute) |
| o | 383 | Modeling Lithium Intercalation in a Manganese Dioxide Particle - F. Vitse, A. Hu, and G. Botte (Ohio University) |
| o | 384 | Suppression of Structural Fatigue in Spinel Oxide Electrode by Coating with Transition Metal Oxide Probed by In-situ Bending Beam Method - K.Y. Chung and K.-B. Kim (Yonsei University) |
| o | 385 | A Study on the Mechanisms of Extra Anodic Current Peak near 3.8V in Cyclic Voltammogram of LiM_xMn2-xO4 (M=Co, Ni ; x=0.05, 0.1) - J.H. Kim, K.Y. Chung, and K.-B. Kim (Yonsei University) |
| o | 386 | Influence of Microstructure on Electrochemical Properties of Laser Deposited Li-Mn-O Thin Film Electrodes in Li-ion Batteries - W.-S. Kim (Unviersity of Florida), D. Singh (Sinmat Inc.), V. Craciun, and R. Singh (Unviersity of Florida) |
| o | 387 | Spinel LiMn2O4 Cathode Materials Synthesized by the Citric Gel Co-Precipitation Method - W.-R. Liu and S.-H. Wu (Tatung University) |
| o | 388 | Microstructural Design of Rechargeable Lithium-Ion Batteries - R.E. Garcia (NIST-PSU), C.M. Bishop, W.C. Carter, P. Limthongkul, Y.-M. Chiang (MIT), and S. Langer (NIST) |
| o | 389 | Spectroscopic Features of Li-Mn-O Defect Spinels - C. Julien (Universite Pierre et Marie Curie), N. Amdouni (Univerite Pierre et Marie Curie), M. Massot (Universite Pierre et Marie Curie), R. Baddour-Hadjean, S. Bach, and J.-P. Pereira-Ramos (CNRS) |
| o | 390 | Electrochemical Properties of LiMn(2-y)Co(y)O4 Spinels Synthesized by Chimie Douce - N. Amdouni (Universite Pierre et Marie Curie), M. Massot (Univerite Pierre et Marie Curie), and C. Julien (Universite Pierre et Marie Curie) |
| o | 391 | Characteristics of Copper Substituted Lithium Manganate - M. Murali (Central Electrochemical Research Institute), J. Jayachandran (Central Electrochemical Research Institute), T. Trivedi, and R. Raghavan (Central Electrochemical Research Institute) |
| o | 392 | Lithium- Manganese Oxide Thin Films Prepared by a Two Step Process as Cathodes in Lithium Cells - M. Murali, P. Prabhakar, and D. Diwakar (Central Electrochemical Research Institute) |
| o | 393 | Characterization of Nanoparticles of LiMn2O4 Synthesized by A Modified Solid-State Reaction - Z. Guo (University of Wollongong), J.-H. Ahn (Andong National University), H. Liu, and S. Dou (University of Wollongong) |
| o | 394 | Synthesis and Characterization of V_2O5 Powder Cathode Materials for Li-Rechargeable Batteries - Y.-T. Kim, K.Y. Chung, and K.-B. Kim (Yonsei University) |
| o | 395 | Investigation of Electrochemical Properties of Vanadium Based Materials for Thin Film Electrode - Y.-S. Kim, H.-J. An, S.-H. Kim, S.-J. Moon, and Y.-E. Sung (Kwangju Institute of Science and Technology) |
| o | 396 | Structure, Conductivity and Electrochemistry of Lithiated Vanadates LiMVO4 (M=Mn, Ni, Co) - K. Rissouli, K. Benkhouja, M. Touaiher (Universite Chouaib Doukkali), and C. Julien (Universite Pierre et Marie Curie) |
| o | 397 | The Mechanism of Structural Change in Orthorhombic Li/LiFeO2 System on Cycling - Y.-S. Lee, S. Sato, Y. Sato, K. Kobayakawa (Kanagawa University), Y.-K. Sun (Hanyang University), and M. Tabuchi (National Institute of Advanced Industrial Science and Technology) |
| o | 398 | Modification of Interface between Lithium and Electrolyte for Rechargeable Lithium-Sulfur Battery - Y.-G. Ryu, J.Y. Kim, and S.M. Lee (Samsung Advanced Institute of Technology) |
Co-Chairs: M. Doeff and J. Xu
| Time | Abs# | Title |
|---|---|---|
| 10:00 | 399 | Study on the Influence of Synthesis Method on Electrochemical Characteristics of LiNi1/3Mn1/3Co1/3O2 - D.-C. Li, T. Muta, L.-Q. Zhang, H. Noguchi, and M. Yoshio (Saga University) |
| 10:30 | 400 | Electrochemical and Structural Properties of Stoichiometric and Non-Stoichiometric LiMn2-yMyO2-d - M. Wakihara, Z. Wang, M. Kaneko, H. Ikuta, and Y. Uchimoto (Tokyo Institute of Technology) |
| 11:00 | 401 | A New High-voltage, High-stable Cathode Material, Li1.05(Ni_1/3Co1/3Mn1/3)O2 for Lithium-Ion Batteries - H. Jung, G. Kim, and H.S. Lim (Samsung SDI) |
| 11:15 | 402 | Diffusion Coefficient of Lithium in Lix(Coy(NiMn)(1y)/2)O2 Cathode Powders - K. Eberman and L. Krause (3M Company) |
| 11:30 | 403 | Charge Separation and Arrangement of Ni and Mn in LiNi1/2Mn1/2O2 by the First-Principles Calculation - Y. Koyama, M. Morinaga (Nagoya University), Y. Makimura, T. Ohzuku (Osaka City University), I. Tanaka, and H. Adachi (Kyoto University) |
Co-Chairs: R. Kostecki and M. Inaba
| Time | Abs# | Title |
|---|---|---|
| 2:00 | 404 | XAS Static and Dynamic in-situ Characterization of Lithium Battery Electrode : The case of Li1.2V3O8 - G. Ouvrard, N. Bourgeon, D. Guyomard (Institut des Materiaux Jean Rouxel), S. Belin, and F. Baudelet (LURE) |
| 2:30 | 405 | Electrode/Electrolyte Interfaces in Li-ion Batteries – To Wash or not to Wash - K. Edstrom (Uppsala University) |
| 3:00 | 406 | AFM Study on SEI growth on Graphite Negative Electrode at Elevated Temperatures - M. Inaba, H. Tomiyasu, A. Tasaka (Doshisha University), S.-K. Jeong, Y. Iriyama, T. Abe, and Z. Ogumi (Kyoto University) |
| 3:15 | 407 | Differences in SEI Film Characteristics between EC-Based and PC-Based Li-Ion Battery Electrolytes by Molecular Dynamics Simulaitons - K. Tasaki (Mitsubishi Chemical Research and Innovation Center) |
| 3:30 | 408 | In Situ Raman Microscopy of A Single Graphite Microflake Electrode in A Li+-containing Electrolyte - Q. Shi, K. Dokko, and D.A. Scherson (Case Western Reserve University) |
| 3:45 | 409 | A New Self-discharge Mechanism in Delithiated Cobalt Oxide in Organic Electrolytes - Y. Ozawa (California Institute of Technology), R. Yazami (UMR 5631), and B. Fultz (California Institute of Technology) |
| 4:00 | 410 | Surface Characterization of a LiNi0.8Co0.15Al0.05 O2 Cathode by ex-situ FTIR Spectroscopy - S.-W. Song (Lawrence Berkeley National Laboratory,), G.V. Zhuang, and P. Ross (, University of California) |
| 4:15 | 411 | Characterization of Battery-Active liNi1/2Mn1/2O2 by EELS and X-Ray Absorption Spectral Measurements - Y. Makimura (Osaka City University), Y. Koyama, I. Tanaka, H. Adachi (Kyoto University), and T. Ohzuku (Osaka City University) |
Co-Chairs: K. Edstrom and H. Tsukamoto
Co-Chairs: B. Huggins and H.J. Ahn
| Time | Abs# | Title |
|---|---|---|
| 2:00 | 423 | Heat-activatable Microporous Separator Membrane and its Use in Lithium-ion Batteries - L. Sun, G. Chen, D. Xu (Policell Technologies, Inc.), T. Abe, and K. Kajita (Hitachi Maxell, Ltd.) |
| 2:15 | 424 | Design Principles for the Use of Electroactive Polymers for Overcharge Protection of Lithium-Ion Batteries - K. Thomas-Alyea, J. Newman (University of California), G. Chen, and T. Richardson (Lawrence Berkeley National Laboratory) |
| 2:30 | 425 | Improvement of Deep Discharge Capability for Lithium-Ion Batteries - C. Kishiyama, M. Nagata, T. Piao, J. Dodd, P.-N. Lam, and H. Tsukamoto (Quallion LLC) |
| 2:45 | 426 | Thermal Behavior of Overcharged Prismatic Li-ion Cell - A. Yamanaka, Y. Kobayashi, H. Miyashiro, Y. Mita, and T. Iwahori (Central Research Institute of Electric Power Industry) |
| 3:00 | Fifteen-Minute Intermission | |
| 3:15 | 427 | Reaction of Lithium With Electrode Reactants Containing Hydrogen or Water - R. Huggins (University of Kiel) |
| 3:45 | 428 | Electrolyte Properties and Performance of the Lithium/Oxygen Organic Electrolyte Battery - J. Read (Army Research Laboratory) |
| 4:00 | 429 | Impact of Elastic Properties on Deposition at Roughening Lithium/Polymer Interfaces - C. Monroe and J. Newman (University of California) |
| 4:15 | 430 | 300 Wh/kg Rechargeable Li/S Battery Operating at - 40 oC - Y. Mikhaylik and J. Akridge (Sion Power Corporation) |
| 4:30 | 431 | The Self-discharge Behaviors of Lithium/Sulfur Cells with Tetra Ethylene Glycol Dimethyl Ether(TEGDME) as Electrolyte - H.-J. Ahn, K.-W. Kim, B.-Y. Hur, J.-H. Ahn (Gyeongsang National University), J.-Y. Lee (Korea Advanced Institute of Science and Technology), K.-K. Cho, and H.-S. Ryu (Gyeongsang National University) |
| 4:45 | 432 | Abstract Withdrawn. |
| 5:00 | 433 | Salt Diffusion in Solid Polymer Electrolytes Prepared Using a Series of Oligomeric Lithium Bis[(perfluoroalkyl)sulfonyl]imide Salts in Polyether Hosts - S. Creager, D. Desmarteau, S. Zhou, and O. Geiculescu (Clemson University) |