Co-Chairs: Z. Ogumi and L.F. Nazar
Time | Abs# | Title |
---|---|---|
10:00 | 278 | Effects of Surface Modification by Metal Oxide on Interfacial Reactions of Lithium Cobalt Oxide Thin Film Electrodes - Y. Iriyama, H. Kurita, T. Abe, and Z. Ogumi (Kyoto University) |
10:20 | 279 | Phase Transformations during High-Voltage Charging of LiCoO_2 Cathodes - K. Pruessner, H. Gabrisch (University of New Orleans), and R. Yazami (California Institute of Technology) |
10:40 | 280 | Effect of Foreign Metal Ions Doping on The Structural and Electrochemical Properties of LiNi0.5Mn0.5O2 - D. Li (Kanagawa University), M. Yoshio, H. Noguchi (Saga University), and Y. Sato (Kanagawa University,) |
11:00 | 281 | Performance of LiNiCoO2 Based Materials for Advanced Lithium-Ion Batteries - Y. Itou and Y. Ukyo (Toyota Central R&D Labs., Inc.) |
11:20 | 282 | Enhanced Capacity Retention and Rate Capability of Layered Li-Ni-Co-Mn-O Compound by Al Oxide Coating - S.-T. Myung (VK Corporation), S. Komaba, N. Kumagai (Iwate University), Y.-K. Sun (Hanyang University), and C.-S. Kim (VK Corporation) |
11:40 | 283 | In Situ Structural Investigations of LiNi1/3Co1/3Mn1/3O2 During Cycling by X-ray Absorption Spectroscopy - A. Deb (Lawrence Berkeley National Lab), U. Bergmann (Stanford Synchrotron Radiation Laboratory), E. Cairns, and S. Cramer (Lawrence Berkeley National Lab) |
12:00 | 284 | Theoretical Analysis of the Discharge Behavior of the LiNi1/3Co1/3Mn1/3O2 Electrode - V. Srinivasan and J. Newman (Lawrence Berkeley National Laboratory) |
Co-Chairs: H. Noguchi and K. Amine
Co-Chairs: D. Li and T.R. Jow
Time | Abs# | Title |
---|---|---|
16:20 | 291 | Manufacturing and Electrochemical Performance of Undoped Nanosized Lithium Manganate and Determination of the Optimal Particle Size for Li+ migration - J. Prochazka and T. Spitler (Altair Nanomaterials, Inc.) |
16:40 | 292 | Design, Performance and Industrial Production of Nanosized LithiumTitanate-Spinel Li4Ti5O12. - J. Prochazka and T. Spitler (Altair Nanomaterials, Inc.) |
17:00 | 293 | Synthesis of Fine Particles of LiFePO_4 Cathode Material for Lithium Ion Battery using a Hydrothermal Method - H. Okawa, K. Sasaki (Akita University), Y. Katayama, K. Uematsu, K. Toda, and M. Sato (Niigata University) |
17:20 | 294 | A Simple, Versatile Sol-Gel Method for the Synthesis of High-Performance LiMPO4 (M=Fe, Mn, Co) - J. Yang and J.J. Xu (Rutgers, the State University of New Jersey) |
17:40 | 295 | Qualification of Carbon-Coated Lithium Iron Phosphate as Cathode Material for Power Assist Hybrid Vehicles - N. Ravet (University of Montreal), D. Geoffroy, and M. Gauthier (Phostech Lithium Inc.) |
Co-Chairs: J. Prakash, B. Owens, and K. Kanamura
Time | Abs# | Title |
---|---|---|
08:00 | 296 | MoO3 Thin Film Cathodes for Elevated Temperature Applications - W. West and J. Whitacre (Jet Propulsion Laboratory) |
08:20 | 297 | beta-FeOOH Positive Active Material Prepared by Liquid Phase Deposition Method for Lithium Secondary Cells - T. Tabuchi, H. Yasuda, and M. Yamachi (Japan Storage Battery Co., Ltd.) |
08:40 | 298 | High Energy Lithium Power Source with Cathode Based on MnO_2 - E. Shembel (Ener1, Inc.), P. Novak (Ener1 Group, Inc.), N. Globa, A. Ryabchuk (Ener1, Inc.), K. Hashimoto, S. Kohara (EnerStruct, Inc.), N. Zaderey (Ukrainian State Chemical Technology University), and V. Pisniy (DneprAZOT) |
09:00 | 299 | Electrochemical Impedance Studies of Dilithium Phthalocyanine - M. Nookala, R. Rashmi (Indian Institute of Science), and L. Scanlon (Wright Patterson AFB) |
09:20 | 300 | Preparation of Macroporous Li-Ion Conductor Using Colloidal Crystal Templating Method - N. Akutagawa, K. Dokko, H. Munakata, J.-I. Hamagami, T. Takei, and K. Kanamura (Tokyo Metropolitan University) |
09:40 | 301 | Current Collector Materials for Li-Ion Positive Electrodes - A.H. Whitehead, A. Shefa, T. Balvanovic (Funktionswerkstoffe F & E GmbH), and M. Schreiber (EN-o-DE, Energy on Demand Production and Sales GmbH) |
10:00 | 302 | Material Architecture and Charge Transport in Nano-Crystalline Rechargeable Li Ion Batteries - S. Majumder, S. Das, S. Nieto, N. Karan, and B. Nastesan (University of Puerto Rico) |
10:20 | Twenty-Minute Intermission |
Co-Chairs: J. Dahn, D. Stevens, and K. Tatsumi
Time | Abs# | Title |
---|---|---|
10:40 | 303 | Study of SEI Layer Formed on Graphite Anodes in PC/LiBOB Electrolyte Using IR Spectroscopy - G.V. Zhuang (Lawrence Berkeley National Lab), K. Xu, T.R. Jow (U.S. Army Research Laboratory), and P. Ross (Lawrence Berkeley National Lab) |
11:00 | 304 | Effect of the Initial Coulombic Efficiency of the Anode on the Over-discharge Behavior of a Li-ion Battery - Z. Mao (ConocoPhillips, Inc.) |
11:20 | 305 | The Filled Carbon Nano-Tube Composite with Sn Used as Anodes for Lithium-Ion Battery - Q.-F. Dong, M.-G. Jin, M.-S. Zheng, Z.-C. Huang, J.-K. You, S.-G. Sun, and Z.-G. Lin (Xiamen University) |
11:40 | 306 | Structural and Electrochemical Properties of Si-M Binary Alloys - T. Hatchard and J. Dahn (Dalhousie University) |
12:00 | 307 | Optical Observations of Amorphous Metallic Alloy / Polymer Composite Electrodes - A. Timmons (Dalhousie University), Z. Chen (Argonne National Laboratory), and J. Dahn (Dalhousie University) |
Co-Chairs: G. Blomgren and Z. Ogumi
Time | Abs# | Title |
---|---|---|
14:00 | 308 | Battery Technology Award Address: Battery Technology Award Address: "Role Assigned Electrolytes" - M. Ue (Mitsubishi Chemical Group Science and Technology Research Center, Inc.) |
14:40 | 309 | Battery Research Award Address: Modeling of Batteries for Performance and Failure Mechanisms - J. Newman (Lawrence Berkeley National Laboratory) |
15:20 | Twenty-Minute Intermission |
Co-Chairs: R. Yazami and M. Wakihara
Time | Abs# | Title |
---|---|---|
15:40 | 310 | Insight into Electrochemical Characteristics of Si and C-coated Si Particulate Electrodes for Lithium Ion Battery - W.-R. Liu (National Taiwan University), Z.-Z. Guo, D.-T. Shieh, H.-C. Wu, M.-H. Yang (ITRI, Materials Research Laboratories), and N.-L. Wu (National Taiwan University) |
16:00 | 311 | Analysis of SiO Anode for Lithium-ion Battery - M. Miyachi, H. Yamamoto, H. Kawai, T. Ohta, and M. Shirakata (NEC Corporation) |
16:20 | 312 | Nano Si cluster-SiO2-C Composite Material as High Capacity Anode Material for Lithium Batteries - T. Morita and N. Takami (Toshiba Corporation) |
16:40 | 313 | Ni_0.5Mn0.5O1.43 for Negative Active Material of Lithium Secondary Cells - X. Liu, H. Yasuda, M. Yamachi (Japan Storage Battery Co., Ltd.), Y. Matsuda, and Y. Imai (The Kansai Electric Power Co., Inc.) |
17:00 | 314 | Dilation Behavior of Anode Material for Lithium-ion Secondary Battery - K. Yamaguchi, H. Satou, T. Kamada (Mitsubishi Chemical Group Science and Technology Research Center, Inc.), and S. Sogame (Mitsubishi Chemical Corp.) |
17:20 | 315 | Nanostructured Negative Electrodes for Rechargeable Lithium Batteries - A. Dailly, A. Serres, R. Yazami, and B. Fultz (CNRS and CALTECH) |
17:40 | 316 | Tin Oxide Nanorods as Li-ion Battery Anodes - J.-Y. Lee and Y. Wang (National University of Singapore) |
18:00 | 317 | Prelithiated Carbon Anode for Lithium-ion Battery Applications using Electrode Microlithiation Technology (EMT) - C.R. Jarvis, M.J. Jain (AEA Technology Battery Systems, Ltd.), M.V. Yakovleva, and Y. Gao (FMC Corporation) |
Co-Chairs: Z. Ogumi and K. Striebel
Time | Abs# | Title |
---|---|---|
o | 318 | Effects of Nano-Crystalline ZnO Coating on Electrochemical Performance of LiCoO_2 cycled to 4.5 V - T. Fang, J.-G. Duh, and S.-Y. Tsai (National Tsing Hua University) |
o | 319 | Rate Capability of Nano-size LiCoO2 Cathode for Li-ion Cells - M. Makidera (Interdisciplinary Graduate School of Engineering Sciences, Kyushu University), T. Kawamura (Japan Science and Technology Agency), S. Okada, and J.-I. Yamaki (Kyushu University) |
o | 320 | New Method of Producing Nano-sized LiCoO2 Particles for Li-ion Batteries - T. Kawamura (Japan Science and Technology Agency (In Yamaki lab., Institute for Materials Chemistry and Engineering, Kyushu University)), M. Makidera, K. Koga, S. Okada, N. Miura, and J.-I. Yamaki (Kyushu University) |
o | 321 | Preparation of LiCoO_2 Paste Electrodes for High Power Micro-batteries - D.H. Im, M.S. Park, S.H. Hyun (Yonsei University), S.C. Nam (Nuricell Ltd.), and Y.S. Yoon (Konkuk University) |
o | 322 | Synthesis and Electrochemical Characterization of High Voltage Cycling LiM0.05Co0.95O2 as Cathode Material for Lithium Rechargeable Batteries - M. Zou, B. Deng, and M. Yoshio (Saga University) |
o | 323 | Synthesis and Characterization of LiCo0.99M0.01O2 (M=Co, Mg, Zn, Mn, Al) By Acid Dissolution Process - S.H. Oh, S.M. Lee, W.T. Jeong, W.I. Cho, and B.W. Cho (Korean Institute of Science and Technology) |
o | 324 | Solid-State Redox Reactions of LiCo_1/3Ni1/3Mn1/3O2 for Advanced Lithium-Ion Batteries - N. Yabuuchi and T. Ohzuku (Osaka City University) |
o | 325 | Direct Observation on the Capacity Loss of a Lithium Ion Cell Using Li1.05(Ni1/3Co1/3Mn1/3)O2 Cathode on Cycling Due to the Depletion of Electrolyte Solutions - H. Jung and G. Kim (Samsung SDI) |
o | 326 | Structural and Electrochemical Properties of Li[Co1-2x(Li1/3Mn2/3)x(Ni1/2Mn1/2)x]O2 - S.J. Jin, K.S. Park, C.H. Song, and K.S. Nahm (Chonbuk National University) |
o | 327 | Effect of Mn Content on the Microstructure and Electrochemical Performance of LiNi_0.75-xCo0.25MnxO2 Cathode Materials - P.-Y. Liao, J.-G. Duh (National Tsing Hua University), and S.-R. Sheen (Coremax Taiwan Corporation) |
o | 328 | The Effect of SI Doping on the Electrochemical Characteristics of LiNixMnyCo(1-x–y)O2 - S.-H. Na, H.-S. Kim, and S.-I. Moon (Korea Electrotechnology Research Institute) |
o | 329 | Synthesis and Characterization of LiNi0.8Co0.2-xMxO2 (M=Co, Mg, Zn, Mn, Al) by Acid Dissolution Process - S.H. Oh, S.M. Lee, W.T. Jeong, W.I. Cho, B.W. Cho (Eco-Nano Research Center), and K. Woo (Nano-Materials Research Center) |
o | 330 | Electrochemical Properties of LiNi_xMnyCo1-x-yO2 for Lithium Ion Secondary Batteries - K. Kikuchi, K. Shima, C. Miura, and K. Okahara (Mitsubishi Chemical Group Science and Technology Research Center, Inc.) |
o | 331 | Effects of Solvents and Starting Matierilas on Structural and Electrochemical Properties of Li[Li1/5Ni1/10Co1/5Mn1/2]O2 Solid Solutions - K.S. Park, C.H. Song, S.J. Jin, and K.S. Nahm (Chonbuk National University) |
o | 332 | Electrochemical Properties of LiCo_1/3Ni1/3Mn1/3O2 as a Cathode for Lithium Ion Batteries - Y. Chen, G. Wang, K. Konstantinov, and H. Liu (I.S.E.M. Unversity of Wollongong) |
o | 333 | Synthesis and Electrochemical Properties of Li[Ni1/3Co1/3Mn1/3]O2-xFx via Co-precipitation - G.-H. Kim (Department of Chemical Engineering), S.-T. Myung (VK Corporation), M.-H. Kim, Y.-K. Sun (Department of Chemical Engineering), K. Amine, and S.-H. Kang (Argonne National Laboratory, Electrochemical Technology Program, Chemical Engineering Division. Argonne) |
Co-Chairs: M. Winter and M. Ue
Time | Abs# | Title |
---|---|---|
10:00 | 334 | Inhibition of Aluminum Corrosion by LiN(SO2CF3)2 /Methyl Difluoroacetate Electrolyte for Use in Li-Ion Cells - J.-I. Yamaki, T. Tanaka, I. Watanabe, M. Egashira, and S. Okada (Kyushu University) |
10:20 | 335 | Effects of Cyclic Carbonates as an Additive to GBL Electrolytes - M. Kotato, Y. Sakata, S. Kinoshita, and M. Ue (Mitsubishi Chemical Group Science and Technology Research Center, Inc.) |
10:40 | 336 | The Effect of Electrolytes on the Discharge Properties of Sulfur Electrode for Li/S Cells - H.-S. Ryu, H.-J. Ahn, K.-W. Kim, J.-H. Ahn, K.-K. Cho, T.-H. NAm (Gyeongsang National University), and J.-Y. Lee (KAIST) |
11:00 | 337 | Transport Properties of LiPF_6 Based Li-ion Battery Electrolytes - L.O. Valoen and J. Reimers (E-One Moli Energy (Canada) Limited) |
11:20 | 338 | Ester-Based Electrolytes that Enable Lithium-ion Cell Operation at very Low Temperatures (-40 Degrees Celcius to -70 Degrees Celcius) - M. Smart, B.V. Ratnakumar, K.B. Chin, and S.R. Narayanan (California Institute of Technology) |
11:40 | 339 | Compatibility of Electrode Materials with LiBOB-BASED Electrolytes - M. Wohlfahrt-Mehrens, M. Wachtler, S. Ströbele (ZSW - Center for Solar Energy and Hydrogen Research), J.-C. Panitz, and U. Wietelmann (Chemetall GmbH) |
Co-Chairs: J.O. Besenhard and Y. Sasaki
Time | Abs# | Title |
---|---|---|
14:00 | 340 | Physical and Electrochemical Properties of Partially Fluorinated Chain Carbonates - N. Nanbu, M. Takehara, N. Tsukimori, S. Watanabe (Tokyo Polytechnic University), M. Ue (Mitsubishi Chemical Group Science and Technology Research Center, Inc.), and Y. Sasaki (Tokyo Polytechnic University) |
14:20 | 341 | Molecular Simulations of Lithium and Anion Transport in Liquid Carbonate Electrolytes - D. Wheeler, G. Gessel, and A. Henrichsen (Brigham Young University) |
14:40 | 342 | Ionics Liquids and Solid-state Lithium Metal Batteries - J.-H. Shin, W. Henderson, S. Scaccia, P.P. Prosini, and S. Passerini (ENEA (Italian National Agency for New Technology, Energy and the Environment)) |
15:00 | 343 | Impurities Effect on Lithium Cycling Efficiency in Room Temperature Ionic Liquids (RTILs) Electrolytes - H. Sakaebe, H. Matsumoto, and K. Tatsumi (National Institute of Advanced Industrial Science and Technology (AIST)) |
15:20 | 344 | Organoboron Polymer Solid Electrolytes Derived from Hydroborane Monomers - N. Matsumi and H. Ohno (Tokyo University of Agriculture&Technology) |
15:40 | 345 | Synthesis of Hyper-Branched Macromonomer and Physical Property as Solid Polymer Electrolyte - M. Kikuta, M. Kono, A. Hatakeyama, E. Ishiko, and M. Nishiura (Dai-Ichi Kogyo Seiyaku Co., Ltd.) |
16:00 | Twenty-Minute Intermission |
Co-Chairs: F. McLarnon and H. Yasuda
Time | Abs# | Title |
---|---|---|
16:20 | 346 | Battery Performance using Solid Polymer Electrolyte having Hyper-Branched Structure - M. Kikuta, M. Kono, T. Higashizaki, E. Ishiko, and M. Nishiura (Dai-Ichi Kogyo Seiyaku Co., Ltd.) |
16:40 | 347 | Inhibition of Lithium Dendrites in Composite Polymer Electrolytes Bbased on Mixed-Molecular Weight Polyethylene Oxides and Fumed Silica - X.-W. Zhang, Y. Li, S. Khan, and P. Fedkiw (North Carolina State University) |
17:00 | 348 | Salt Effects on Ionic Conductivity and Electrochemical Properties of Polymer Electrolytes - X.-G. Sun and J.B. Kerr (Lawrence Berkeley National Laboratory) |
17:20 | 349 | Temperature-Step Impedance Spectroscopy for Exchange Current Densities at Lithium/Polymer Interfaces - C. Monroe (University of California, Berkeley), K.H. Shin, Y. Han, J. Kerr (Lawrence Berkeley National Laboratory), and J. Newman (University of California, Berkeley) |
17:40 | 350 | Solvent-free Composite PEO-ceramic-fiber-mat Electrolytes for Li-ion Batteries - C. Wang (Center for Manufacturing Research/Chemical Engineering Department), X. Zhang, and A.J. Appleby (Center for Electrochemical Systems and Hydrogen Research Texas A&M University) |
Co-Chairs: K. Zaghib and J. Yamaki
Time | Abs# | Title |
---|---|---|
o | 351 | Electrochemical Insertion of Lithium into Carbon Nanotubes and Silicon Composites - J. Eom, J. Park, and H. Kwon (Korea Advanced Institute Science and Technology) |
o | 352 | Enhance the Capacity of Graphite for Lithium-ion Battery Anode by Ag Inlay and Carbon Coverage - J.-M. Chen, M.-H. Liu, Y.-R. Lin, J.-R. Zheng, and Q.-H. Peng (ITRI/MRL) |
o | 353 | Nano-Ag Embedded into Graphite Prepared by Mechanofusion and Hard Carbon Coating for High-Performance Anode Materials of Li-ion Batteries - J.-M. Chen, M.-H. Liu, Y.-R. Lin, J.-R. Zheng, and C.-H. Peng (ITRI/MRL) |
o | 354 | Aqueous Processing of Graphite Anodes for Lithium Ion Batteries - Y.-M. Choi (Samsung Advanced Institute of Technology), K.-H. Kim, K.-M. Jeong (Samsung SDI), J.-H. Lee, and U. Paik (Hanyang University) |
o | 355 | Graphite vs. Lithium-Alloy Anodes in Lithium Ion Batteries - K. Zaghib, P. Charest, A. Guerfi (Institut de Recherche d’Hydro-Québec), and K. K inoshita (CTECH Research) |
o | 356 | Potential of Mesoporous SnO2 as Anode Materials for Rechargeable Lithium-ion Batteries - S. Koyama, T. Hyodo, Y. Shimizu, and M. Egashira (Nagasaki University) |
o | 357 | A Critical Size of SnO2 Nanoparticles for Li-Ion Cells - C. Kim (Seoul National University), M. Noh (Kumoh National Institute of Technology), M. Choi (Seoul National University), J. Cho (Kumoh National Institute of Technology), and B. Park (Seoul National University) |
o | 358 | Nano-structured SnO2 Anodes for Lithium- ion Batteries - L. Yuan, K. Konstantinov, Z. Zhao, G. Wang, and H. Liu (Institute of Superconducting & Electronic Materials) |
o | 359 | Evaluation of Si/C Composite as a LIB Anode Material - N. Dimov and M. Yoshio (Saga University) |
o | 360 | The Relative Effects of Composition and Diffusion in the Si-M (M = Mn, Fe, Cr, Ni) System. - M. Fleischauer and J. Dahn (Dalhousie University) |
o | 361 | Electrochemical Properties of Ternary Si-A-B Alloy Negatives for Li-ion Batteries - T. Hatchard and J. Dahn (Dalhousie University) |
o | 362 | Charge-discharge Mechanism of Lithium Cobalt Vanadium Oxide as a High Reversible Capacity Anode Material for Lithium-ion Cells - J. Shirakawa, Y. Uchimoto, and M. Wakihara (Tokyo Institute of Technology) |
o | 363 | Determination of Transport Properties of LiPF6 in Ethylene Carbonate –Ethyl Methyl Carbonate - E. Gunen (Illinois Institute of Technology), D. Dees (Argonne National Laboratory), and J. Prakash (Illinois Institute of Technology) |
o | 364 | Measurement of Activity Coefficients and Transference Numbers of Nonaqueous Electrolytes Using Anion-Reversible Electrodes - S. Stewart (University of California Berkeley), K. Thomas-Alyea (UTC Fuel Cells), and J. Newman (University of California Berkeley) |
o | 365 | Ion Transfer Between Lithium-ion Conductive Electrolytes under DC Polarization - F. Sagane, T. Abe, Y. Iriyama, and Z. Ogumi (Kyoto University) |
o | 366 | Monitoring Electrolyte Reduction Mechanisms by Advanced Electrochemical in situ Methods - M.R. Wagner, J. Albering, P.R. Raimann, A. Trifonova, K.C. Moeller, J.O. Besenhard, and M. Winter (Graz University of Technology) |
o | 367 | Preparation of Gel Electrolyte using Self-assembling Diblockpolymer for Lithium Secondary Battery - H. Nara, M. Ueda (Waseda University), T. Momma (CREST, JST; Waseda University), and T. Osaka (Waseda University) |
o | 368 | Spin Coated Polymer Electrolyte for Solid State Thin Film Lithium Polymer Batteries - C.-H. Park, M. Park, S.-I. Yoo, and S.-K. Joo (Seoul National University) |
o | 369 | Mixed-Molecular Weight Nanocomposite Polymer Electrolytes - Y. Li, S. Khan, and P. Fedkiw (North Carolina State University) |
o | 370 | Preparation and Characterization of PMMA-PEO Based Copolymer Electrolyes - Z. Osman, A.K. Arof (University of Malaya), K.W. Chew (University of Multimedia), N. Osman, S.H. Sarijo, and N. Kamarulzaman (University Technology of MARA) |
o | 371 | A Study on Electrochemical Characteristics of DPEPA-Based Gel Polymer Electrolyte - H.-S. Kim, S.-I. Kim, S.-H. Na, S.-I. Moon (Korea Electrotechnology Research Institute), and Y.-J. Kim (Saehan Enertech Co.) |
o | 372 | Charge-Discharge Electrochemical Properties of Li-Secondary Batteries with Nano-Structure-Controlled Solid Polymer Electrolyte (SPE) - M. Shimada, T. Niitani, K. Kawamura (Nippon Soda Co., Ltd.), and K. Kanamura (Tokyo Metropolitan University) |
o | 373 | The Preparation and Characterization of a New ORMOSIL Membrane for Lithium Battery Applications - J. Kinder (NASA Glenn Research Center) and W. Bennett (QSS Group, Inc.) |
o | 374 | Synthesis of Novel Nano-Structure-Controlled Solid Polymer Electrolyte and its Battery Characteristics - T. Niitani, M. Shimada, M. Amaike, K. Kawamura (Nippon Soda Co., Ltd.), and K. Kanamura (Tokyo Metropolitan University) |
o | 375 | Preparation of All-solid-state Thin Film Rechargeable Lithium Batteries and their Electrochemical Properties - T. Kako, Y. Iriyama, T. Abe, and Z. Ogumi (Kyoto University) |
o | 376 | Characteristics of Lithium Lanthanum Titanate Solid Electrolyte for All-solid-state Lithium Thin Film Battery - J.-K. Ahn and S.-G. Yoon (Chungnam National University) |
o | 377 | Effect of Cl Substitution on the Lithium Ion Conductivity of Lithium Indium Bromide - Y. Tomita, H. Matsushita, K. Kobayashi (Shizuoka University), and K. Yamada (Hiroshima University) |
o | 378 | A Study on Ion Transport Mechanism of Ionic Liquid for Lithium Secondary Battery Application - S.-Y. Lee, H.H. Yong, S.K. Kim (Battery R&D, LG Chem, Ltd), Y.J. Lee (Corportate R&D, LG Chem, Ltd), and S. Ahn (Battery R&D, LG Chem, Ltd) |
Co-Chairs: D. Doughty and R. Kanno
Time | Abs# | Title |
---|---|---|
08:00 | 379 | Novel Composite Electrolytes Using Single-Ion Conducting Fumed Silicas - X.-W. Zhang, S. Khan, and P. Fedkiw (North Carolina State University) |
08:20 | 380 | All Solid-State Battery Using Inorganic Lithium Super Ion Conductor - R. Kanno, M. Murayama (Tokyo Institute of Technology), T. Inada (Denki Kagaku Kogyo K. K.), T. Kobayashi, K. Sakamoto, N. Sonoyama, A. Yamada (Tokyo Institute of Technology), and S. Kondo (Ion Engineering Research Institute Corporation) |
08:40 | 381 | A Monte Carlo Model for Predicting Lithium Ion Battery Life and Reliability - M. Isaacson (Lockheed Martin Space Systems) |
09:00 | 382 | Understanding the Graphite Failure Mechanism in Lithium-ion Batteries: a Multiple Technique Approach - M. Holzapfel, H. Buqa, A. Würsig (Paul Scherrer Institut), F. Krumeich (Swiss Federal Institute of Technology), B. Schmitt (Paul Scherrer Institut), M.E. Spahr (Timcal SA), J. Vetter, and P. Novak (Paul Scherrer Institut) |
09:20 | 383 | Effect on Storage Characteristics of Mixing Li-Mn Spinel and Li-Ni-Co-Mn Oxide - H. Kitao, T. Fujihara, K. Takeda, N. Nakanishi, and T. Nohma (SANYO Electric Co., Ltd.) |
09:40 | 384 | Reliability of Lithium-ion Cells using Lithium Iron Phosphate as Cathode Material - S. Nakanishi, T. Matsui, and H. Yoshizawa (Matsushita Battery Industrial Co., Ltd.) |
10:00 | Twenty-Minute Intermission |
Co-Chairs: K. Striebel and Y. Kobayashi
Time | Abs# | Title |
---|---|---|
10:20 | 385 | Calendar Life Studies of Li-ion Batteries for FCEVs - N. Kihira, Y. Mita, K. Takei, Y. Kobayashi, H. Miyashiro, K. Kumai, N. Terada, and T. Iwahori (Central Research Institute of Electric Power Industry) |
10:40 | 386 | Study on the Power Fade after Pulse Cycle Life Test for Cylindrical Li-ion Battery Cells with High Power-type - H. Kobayashi, S. Koike, M. Shikano, H. Sakaebe, and K. Tatsumi (National Institute of Advanced Industrial Science and Technology (AIST)) |
11:00 | 387 | Failure Mechanism Diagnosis of Lithium Ion Batteries - P. Liu, K. Kirby, and E. Sherman (HRL Laboratories, LLC) |
11:20 | 388 | Electrochemical Degradation of Carbon in Composite Cathodes for Li-ion Cells - R. Kostecki, S.-K. Jeong, J. Lei, X. Song, V. Zhuang, K. Striebel, and F. McLarnon (Lawrence Berkeley National Laboratory) |
11:40 | 389 | Investigations of the Exothermic Reactions of Natural Graphite Anode for Li-ion Batteries during Thermal Runaway - H. Yang, H. Bang (Illinois Institute of Technology), K. Amine (Argonne National Laboratory), K. Striebel (Lawrence Berkeley National Laboratory), and J. Prakash (Illinois Institute of Technology) |
12:00 | 390 | Thermal Srability of Lithium Magnesium Cobalt Oxides for High Safety Lithium-ion Batteries - H. Yoshizawa, M. Nagayama, and T. Matsui (Matushita Battery Industrial Co., Ltd.) |
Co-Chairs: K. Zaghib and J. Yamaki
Time | Abs# | Title |
---|---|---|
14:00 | 391 | Ovecharge Abuse Response of 18650 Li-Ion Cells - E.P. Roth and D. Doughty (Sandia National Laboratories) |
14:20 | 392 | Overcharge Protection for High Voltage Lithium Batteries - T. Richardson and G. Chen (Lawrence Berkeley National Laboratory) |
14:40 | 393 | Source of Thermal Reactivity at the Postive and Negative Electrode in Lithium Batteries - K. Amine, I. Belharouak, Y.-E. Hyung, G.L. Henriksen (Argonne National Laboratory), and J. Prakash (Illinois Institute of Technology) |
15:00 | 394 | High-Power Li-ion Cells for Passive Thermal Management and Failsafe Operation - T. Kaun (InvenTek Corporation), H. Joachin, and J. Prakash (Ill. Inst. of Tech.) |
15:20 | 395 | Novel Electrolyte Additives for Over Charge Protection at Low Current - H. Wang, H. Mao, and J. Kaschmitter (SpectraPower, Inc.) |
15:40 | Twenty-Minute Intermission |
Co-Chairs: T. Abe and J. Yamaki
Time | Abs# | Title |
---|---|---|
16:00 | 396 | Advanced Secondary Lithium Batteries with Superior Saftey Characteristics - B. Dixon, R.S. Morris, and B. Gall (Phoenix Innovation, Inc.) |
16:20 | 397 | Secondary Battery Electrolyte Safety - B. Dixon, R.S. Morris, and B. Gall (Phoenix Innovation, Inc.) |
16:40 | 398 | Performance, Safety and Cost of Li-Ion Polymer Battery using LiFePO4 as Cathode Material - K. Zaghib (Institut de Recherche d’Hydro-Québec), K. Striebel, R. Kostecki (Environmental Energy Technologies Division,), P. Charest, and A. Guerfi (Institut de Recherche d’Hydro-Québec) |
17:00 | 399 | Storage Characteristics of Li-Ion Batteries for NASA Missions - R. Bugga, K. Chin, and M. Smart (Jet Propulsion Lab) |
Co-Chairs: Z. Ogumi and J. Yamaki
Time | Abs# | Title |
---|---|---|
o | 400 | Self-discharge Study of LiCoO2 and LiMn2O4 Cathodes - Y. Ozawa (California Institute of Technology), R. Yazami (CNRS-UMR 5631), and B. Fultz (California Institute of Technology) |
o | 401 | Preparation and Its Electrochemical Properties of LixMnO2 Material - Y.-S. Lee, S.-J. Cho (Chonnam National University), and M. Yoshio (Saga university) |
o | 402 | Preparation of LiMn2O4 Thin-Film Electrode with High Electrochemical Performance by the Oxygen Plasma-Assisted Sol-Gel Method - T. Fukutsuka, K. Sakamoto, Y. Matsuo, Y. Sugie (Graduate School of Engineering, University of Hyogo), T. Abe, and Z. Ogumi (Graduate School of Engineering, Kyoto University) |
o | 403 | Microstructure and Electrochemical Properties of LBO-coated Li-Excess Li_1+xMn2O4 Cathode Material at Elevated Temperature for Lithium Ion Battery - H.-W. Chan, J.-G. Duh (National Tsing Hua University), and S.-R. Sheen (Coremax Taiwan Corporation) |
o | 404 | Improvement of Electrode Performance of LiNi0.5Mn1.5O4 for 5 V Cathode Material by Optimizing Preparation Conditions - W.T. Jeong, S.H. Oh, W.I. Cho, and B.W. Cho (Korea Institute of Science and Technology) |
o | 405 | Charge-Transfer Reaction Rate at the LiMn_2O4 Spinel Oxide Cathode / Electrolyte Interface - T. Furushita, Y. Uchimoto, and M. Wakihara (Tokyo Institute of Technology) |
o | 406 | Development of Combinatorial Technique using Electrostatic Spray Deposition Method - K. Takeda, T. Furushita, Y. Uchimoto, and M. Wakihara (Tokyo Institute of Technology) |
o | 407 | Nano Crystalline Manganese Spinel LiMn2O4 Prepared by Ultrasonic Spray Pyrolysis - S.-H. Park, S.-W. Oh, and Y.-K. Sun (Hanyang University) |
o | 408 | Comparison of the Entropy of Reaction in Li1+xMn2-xO4 Having Different Ratio of Li/Mn - Y.-S. Lin and J. Reimers (E-One Moli Energy (Canada) Ltd.) |
o | 409 | Elechtrochemical and X-ray Absorption Spectroscopy Studies of d Metal Oxide Nanosheets - Y. Kadoma, Y. Uchimoto, and M. Wakihara (Tokyo Institute of Technology) |
o | 410 | Characterization of SnOx-Coated Lithium Manganese Oxide Thin Film - H.-S. Moon, J.-H. Lee, Y.-J. Kim, and J.-W. Park (Hanyang University) |
o | 411 | Nanoparticle Iron-Phosphate Anode with a New Crystal Structure for a Li-Ion Battery - D. Son (College of Engineering, Seoul National University), E. Kim (Kumoh National Institute of Technology), T.-G. Kim (College of Engineering, Seoul National University), J. Cho (Kumoh National Institute of Technology), and B. Park (College of Engineering, Seoul National University) |
o | 412 | LiFePO4 Cathode Made by Novel Water Soluble Elastomer for Low Cost Li-ion Batteries - A. Guerfi, P. Charest (Hydro-Québec), H. Mori, M. Kaneko (Zeon Corporation), and K. Zaghib (Hydro-Québec) |
o | 413 | Influence of Addition of VGCF on LiFePO4 Cathode Materials in Li-ion Batteries - C. Jin-Ming, L. Mao-Huang, and C. Chin-Cheng (Industrial Technology Research Institute) |
o | 414 | Ionic Conductivity of Phospho-Olivine Compounds Measured by AC Impedance Spectroscopy - C. Yada, Y. Iriyama, T. Abe, and Z. Ogumi (Kyoto University) |
o | 415 | New Mixing Method to Prepare Li4Ti5O12 Material: Structure and Electrochemical Performance - A. Guerfi, P. Charest, and K. Zaghib (Institut de Recherche d’Hydro-Québec) |
o | 416 | High Temperature Synthesis of Birnessite Type Manganese Dioxides Doped with Cobalt for Rechargeable Li Batteries - A. Ogata, S. Komaba, T. Sasaki, and N. Kumagai (Iwate University) |
o | 417 | Investigation of the Electrochemical Properties of Vanadium-based Oxides for Thin Film Electrodes - Y.-S. Kim, H.-J. Ahn, and T.-Y. Seong (Gwangju Institute of Science & Technology (GIST)) |
o | 418 | Effect of Silica Nanoparticles on Aluminum Corrosion - Y. Li, F. Azeez, X.-W. Zhang, P. Fedkiw, and S. Khan (North Carolina State University) |
o | 419 | Carbon Bismuth Oxyfluoride Nanocomposites as Cathode Material for Lithium Battery - M. Bervas, L. Klein, and G. Amatucci (Rutgers University) |
o | 420 | Modeling Cycle Life of A Rechargeable Li-ion Battery: Theory - G. Ning and B. Popov (University of South Carolina) |
o | 421 | Investigation of the Species Responsible for the Dramatic Capacity Fade Improvement Caused by the Addition of Fullerene Soot to Li-ion Anodes - R. Doe, L. Rendek, and M. Wagner (The George Washington University) |
o | 422 | Calendar Life Studies on Lithium-Ion Pouch Cells - R.P. Ramasamy, R. White, and B. Popov (University of South Carolina) |
o | 423 | Inestigation on Performance-Degradation Mechanism of Lithium-Ion Cells Simulated Low-Earth-Orbit Satellite Operation by Using Instruments Analysis - X. Wang, C. Yamada, H. Naito, and S. Kuwajima (Tsukuba Space Center) |
o | 424 | Self-Discharge Analysis of LiCoO2 for Lithium Batteries - S.H. Choi, J. Kim (Korea Institute of Science and Technology), and Y.S. Yoon (Konkuk University) |
o | 425 | Thermostability of LixFePO4 - J. Dodd, R. Yazami, and B. Fultz (California Institute of Technology) |
o | 426 | Improved Thermal Stability of LiCoO2 and LiNi0.8Co0.15Al0.05O2 Cathodes in the EC-based Electrolyte with Phosphazene-type Additives - Q. Zhang, H. Noguchi, B. Deng, M. Yoshio (Saga University), and M. Otsuki (Bridgestone Corporation) |
o | 427 | Thermal Stability of LiXCoO2 Cathode in Li-ion Cells - N. Katayama, I. Watanabe, and J.-I. Yamaki (Kyushu University) |
o | 428 | Heat Generation of Lithium-ion Batteries in High Rate Charge and Discharge - Y. Saito (National Institute of Advanced Industrial Science and Technology) |
o | 429 | Thermal Stability and Electrochemical Properties of Electrodes in Ionic Liquid Electrolyte for Lithium Batteries - M. Nakagawa, M. Egashira, I. Watanabe, S. Okada, and J.-I. Yamaki (Kyushu University) |
o | 430 | New Flame-retardant Additives For Lithium Batteries - M. Otsuki and T. Ogino (Bridgestone Corp) |
o | 431 | Microelectronically Fabricated LiCoO_2/SiO2/Polysilicon Cells - N. Ariel, G. Ceder, D. Sadoway, and E. Fitzgerald (Massachusetts Institute of Technology) |
o | 432 | Pulse Charging Model to Rapidly Charge Lithium Ion Battery - B. Purushothaman and U. Landau (Case Western Reserve University) |
o | 433 | High Power Thick-Film Lithium-Ion Microbattery For Powering Autonomous Microsensor Systems - Q. Lin and J. Harb (Brigham Young University) |
o | 434 | Self-Organizing Electrochemical Devices via Particle Phase Separation - S. Tobias, J. Giocondi, D.-W. Kim, D. Moorehead (Massachusetts Insitute of Technology), S.-Y. Chung (Inha University), and Y.-M. Chiang (Massachusetts Insitute of Technology) |
o | 435 | Organic Radical Battery - K. Nakahara, J. Iriyama, S. Iwasa, M. Suguro, and M. Satoh (NEC Corporation) |
o | 436 | Elucidation of Electrochemical Characteristics of Room-Temperature Li/FeS$_2} Batteries - J.-W. Choi, J.-K. Kim, J.-H. Ahn, J.-U. Kim, H.-J. Ahn, T.-H. Nam, K.-W. Kim, K.-K. Cho, and K.-B. Cho (Gyeongsang National University) |
o | 437 | Fabrication and Characterization of LiCoO2 Battery-Supercapacitor Combination for High-Pulse Power System - S.H. Choi, J. Kim (Korea Institute of Science and Technology), and Y.S. Yoon (Konkuk University) |
o | 438 | Towards Safe, Low Cost and Sustainable Lithium Ion Polymer Batteries. - P. Reale, S. Panero, B. Scrosati (University of Rome, La Sapienza), J. Garche, P. Axmann, M. Wohlfahrt-Mehrens, and M. Wachtler (ZSW) |
Co-Chairs: E. Cairns and M. Broussely
Time | Abs# | Title |
---|---|---|
08:00 | 439 | Performance Characteristics of Sandia Built 18650 Li-Ion Cells - B. Sanchez, G. Nagasubramanian, and E. Roth (Sandia National Laboratories) |
08:20 | 440 | Improved Rate Properties of Li-ion Battery Consisting of ZrO2 Modified Graphite Anode and Substituted Spinel Cathode - I. Kottegoda, Y. Kadoma, H. Ikuta, Y. Uchimoto, and M. Wakihara (Tokyo Institute of Technology) |
08:40 | 441 | Study of a High-Power Lithium-ion Battery - K. Watanabe, M. Nagayama, Y. Ohsawa, K. Nemoto, T. Saito, T. Abe, T. Ogawa, H. Horie, M. Kawai, and H. Sugawara (Nissan Motor Co., Ltd.,) |
09:00 | 442 | Charge Efficiency and Self-Discharge Study in Rechargeable Li/S Batteries - Y. Mikhaylik and J. Akridge (Sion Power Corporation) |
09:20 | 443 | 380 Wh/kg Rechargeable Li/S Batteries Operating at 90% of Sulfur Utilization - Y. Mikhaylik and J. Akridge (Sion Power Corporation) |
09:40 | Twenty-Minute Intermission |
Co-Chairs: J. Newman, B.Y. Liaw, and S. Okada
Time | Abs# | Title |
---|---|---|
10:00 | 444 | Microstructural Modeling and Design of Rechargeable Lithium Ion Batteries - E. Garcia (National Institute of Standards and Technology), Y.-M. Chiang, and W.C. Carter (Massachusetts Institute of Technology) |
10:20 | 445 | C-MEMS Technology for Li Ion Microbatteries - C. Wang, L. Taherabadi, C. Wang, H. Xu, R. Zaouk, M. Madou (University of California, Irvine), Y. Yeh, and B. Dunn (University of California, Los Angeles) |
10:40 | 446 | Modeling Volume Expansion in Lithium-Ion Batteries - P. Gomadam and J. Weidner (University of South Carolina) |
11:00 | 447 | Live Simulations of Li-ion Cells: An Educational and a Design Tool - L.O. Valoen and J. Reimers (E-One Moli Energy (Canada) Limited) |
11:20 | 448 | Electrochemical Impedance and NMR Studies of Lithium Ion Batteries - M. Kerlau, E. Cairns, and J. Reimer (Lawrence Berkeley National Lab) |
11:40 | 449 | High-Capacity Lithium Polymer Batteries Prepared by Ceramic Electrolyte Coating LiCoO2 - Y. Kobayahsi, S. Seki (Central Research Institute of Electric Power Industry), M. Tabuchi (National Institute of Advanced Industrial Science and Technology), A. Yamanaka, Y. Mita, and H. Miyashiro (Central Research Institute of Electric Power Industry) |
12:00 | 450 | Development of Novel Ni0.8Co0.2OOH0.43Li0.57·Lix / C System Li-ion Cells - M. Yasutomi, T. Tabuchi, H. Yasuda, and M. Yamachi (Japan Storage Battery Co., Ltd.) |
Co-Chairs: M. Imanishi and J. Christophersen
Time | Abs# | Title |
---|---|---|
14:00 | 451 | Solid State Battery with FeS Anode - B.-C. Kim, L. Zhang, N. Ohta, Y. Seino, K. Takada (National Institute for Material Science), and T. Sasaki (CREST, Japan Science and Technology Agency) |
14:20 | 452 | Recent Development of ENEA Lithium Battery Project - G.B. Appetecchi, J.-H. Shin, F. Alessandrini, and S. Passerini (ENEA (Italian Agency for New Technology, Energy and the Environment)) |
14:40 | 453 | Is Li-ion Technology Branching Out? - G. Thomas (Motorola Inc.) |
15:00 | 454 | NMR Studies of SEI Formation in Cycled and Stored LiCoO_2 Cathodes and MCMB Anodes. - B. Meyer, N. Leifer, S. Greenbaum (Hunter College of CUNY), and C. Grey (SUNY @ Stony Brook) |
15:20 | 455 | High Energy Density Gel Polymer Battery for Military Applications - M. Gordon, Z. Pi, and X. Zhang (Ultralife Batteries, Inc.) |
15:40 | 456 | Impact of Reference Performance Tests on Li-Ion Cell Performance - J. Christophersen, K. Gering, C. Motloch, and C. Ho (Idaho National Engineering and Environmental Laboratory) |
16:00 | Twenty-Minute Intermission |
Co-Chairs: H. Sakaebe and S. Ahn
Time | Abs# | Title |
---|---|---|
16:20 | 457 | Developments in Li-ion Microbatteries: Fabrication and Packaging - A. Stux, J. Pietron, and K. Swider-Lyons (Naval Research Laboratory) |
16:40 | 458 | “Separator-less” Rechargeable Lithium Ion Batteries Fabricated By Electrophoretic Assembly - D.-W. Kim, S. Tobias, J. Giocondi, and Y.-M. Chiang (Massachusetts Institute of Technology) |
17:00 | 459 | Assessing Low-temperature Performance in Lithium-ion Cells using Discharge Data and an Electrolyte Model Based on Chemical Physics and Ion Solvation - K. Gering and J. Christophersen (INEEL) |
17:20 | 460 | Simulation of the Temperature Dependence of Li-Ion Cell Performance - R. Spotnitz, G. Yeduvaka, J. Weaver (Battery Design Co.), and J. Fan (Gold Peak Battery Technologies) |
17:40 | 461 | Lithium Ion Batteries Based on Polymer Modified V_2O5 Cathode Materials - K. White, Q. Horn, A. Newman, E. Salley, and J. Lennhoff (Physical Sciences Inc.) |