203 Meeting Symposia

Time

Abs#

Title

241

Thick Vacuum Deposited Si Films Suitable for the Anode of Li-Ion Battery - T. Takamura (Harubin Institute of Technology), M. Uehara, J. Suzuki (Rikkyo University), K. Tamura (Shinkobedenki Co.), and K. Sekine (Rikkyo University)

242

Constant Discharge Capacity of Lithium Ion Insertion into Silicon Anode Material - Z. Wen, J. Xie (Shanghai Institute of Microsystem and Information Technology, Chinese Academy of Sciences), X. Xie (Harbin Engineering University), X. Yu, K. Wang (Shanghai Institute of Microsystem and Information Technology, Chinese Academy of Sciences), and J. Yang (Shanghai Jiao Tong University,)

243

Evaluation of the Diffusion Rate of Li During Insertion/Extraction at a Si Film Anode - K. Yoshimura, K. Sekine, J. Suzuki (Rikkyo University), and T. Takamura (Harbin Institute of Technology)

244

Enhanced Cycle Life of Si Anode by Electrode Engineering - W.-R. Liu (National Taiwan University), Z.-Z. Guo, D.-T. Shieh, H.-C. Wu, M.-H. Yang (Materials Research Laboratories, ITRI), and N.-L. Wu (National Taiwan University)

245

Amorphization Behavior of Li-Si Alloy Negative Electrode in Lithium Secondary Batteries - J.H. Ryu, J.W. Kim, J.Y. Kwon, and S.M. Oh (Seoul National University)

246

Cycle Performance of Si-based Thin Film Anodes for Li-ion Batteries - K.S. Lee, J.B. Kim, B.S. Jun, and S.M. Lee (Kangwon National University)

247

NiSi2 as Anode Material for Lithium Ion Batteries - Z. Wen, J. Xie, K. Wang, C. Lai, B. Wang (Shanghai Institute of Microsystem and Information Technology, Chinese Academy of Sciences), and J. Yang (Shanghai Jiao Tong University)

248

Exploring The Possibility Of Using A Novel Category Si2.6 Co0.4N4 Based Anode Materials In Rechargeable Lithium Batteries - K. Nallathamby (Central ElectroChemicalResearch Institute (CECRI)), C.-H. Doh, C.-W. Park, S.-I. Moon, and M.-S. Yun (Korea Electrotechnology Research Institute (KERI))

249

Study of Polypyrrole / Silicon Composite as Anode Materials for Li-Ion Batteries - Z. Guo, J. Wang, H. Liu, and S. Dou (University of Wollongong)

250

Li Insertion/Extraction Characteristics of a Vacuum-Deposited Si-Sn Binary Film - M. Suzuki, J. Suzuki, K. Sekine (Rikkyo University), and T. Takamura (Harbin Institute of Technology)

251

Optical Observations of Amorphous Metallic Alloy / Polymer Composite Electrodes - A. Timmons, Z. Chen, and J. Dahn (Dalhousie University)

252

Structural and Morphological Differences in the Cycled Electro-Deposited Sn-Ni Alloy Lithium Ion Battery Anodes with Different Composition - H. Mukaibo, Y. Wada, T. Yokoshima, T. Momma, and T. Osaka (Waseda University)

253

Si-Zr(-Ag) Thin Film Anodes for Li-ion Microbatteries - K.S. Lee, H.Y. Lee, Y.L. Kim, and S.M. Lee (Kangwon National University)

254

Electrochemical Characteristics of Fe-Si Multi-Layer Film as Anodes for Lithium Batteries. - J.-B. Kim, H.-Y. Lee, and S.-M. Lee (Kangwon National University)

255

Influence of the Preparation Conditions on the Morphology and Electrochemical Performance of Sn/SnSb Alloy Powders - A. Trifonova, M.R. Wagner, K.-C. Moeller, M. Winter, and J.O. Besenhard (Graz University of Technology)

256

A Study on PVdF as Binder for Composite Electrodes Based on Lithium Storage Alloys - M. Wachtler (University of Rome), J.O. Besenhard (Graz University of Technology), and B. Scrosati (University of Rome)

257

Ag-Sn System Nanocomposite Electrodes for Advanced Li-Ion Batteries - M. Wada (Fukuda Metal Foil & Powder Co., Ltd.), J. Yin, S. Tanase (National Institute of Advanced Industrial Science and Technology (AIST), Kansai), O. Kajita (Fukuda Metal Foil & Powder Co., Ltd.), and T. Sakai (National Institute of Advanced Industrial Science and Technology (AIST), Kansai)

258

Anode Behavior of Electroplated Rough Surface Sn Thin Films for Lithium-ion Batteries - H. Negishi, H. Morimoto, and S.-I. Tobishima (Gunma University)

259

Effects of Preparation Conditions of SnSb on the Anode Performance for Li-Ion Battery - H. Mukaibo, T. Osaka (Waseda University), P. Reale, S. Panelo, B. Scrosati, and M. Wachtler (University “La Sapienza”)

260

High Capacity Tin-Iron Alloy Plating Anodes for Lithium Secondary Batteries - T. Sonoda (Hyogo Prefectoral Institute of Technology), H. Kobayashi, K. Komoto, H. Sakaebe, and K. Tatsumi (AIST Natl Inst of Adv Indus Sci &Tech)

261

Synthesis and Characterization of Ni3Sn4, as New Anode Material in Lithium Ion Batteries - I. Amadei, S. Panero, B. Scrosati (University of Rome), G. Cocco, and L. Schiffini (University of Sassari)

262

Surface Film Formation on Sn Thin Film Anode - M. Inaba, T. Uno, and A. Tasaka (Doshisha University)

263

Tin, titanium-Pyrophosphates for Lithium Ion Negative Electrodes - P.S. Attidekou, P.A. Connor, and J.T.S. Irvine (University of St-Andrews)

264

Electrochemical Characteristics of Ti-P Compound Prepared by Mechanochemical Synthesis - S.-G. Woo and H.-J. Sohn (Seoul National University)

265

Sn_4+XP₃ anode materials for Lithium-Ion Batteries - S.-I. Lee, Y.-U. Kim, and H.-J. Sohn (Seoul National University)

266

Low Temperature Synthesis of Intermetallic- and Composite Electrodes for Lithium Batteries - T. Sarakonsri (Chiang Mai University), C. Johnson, J. Vaughey, N. Li (Argonne National Laboratory), S. Hackney (Chiang Mai University), and M. Thackeray (Argonne National Laboratory)

267

Li Insertion Mechanisms in MSb (M= Ni, Co, Fe, Mn) Anode Materials Studied by 121Sb Mössbauer Spectroscopy - C.M. Ionica, P.E. Lippens, J. Olivier-Fourcade, and J.-C. Jumas (Université Montpellier II)

268

Mechanically Lithiated Mg2Ge as an Anode Material for Rechargeable Lithium Batteries - H. Sakaguchi, H. Honda, and T. Esaka (Tottori University)

269

Thick SEI Film on Ag Electrode Surface in Lithium Batteries - X. Wu, Z. Wang, L. Chen, and X. Huang (Chinese Academy of Sciences)

270

Preparation and Characterization of CoO Used as Anodic Material of Lithium Battery - J.-S. Do and C.-H. Weng (University of Tunghai)

271

Synthesis of Nanocrystalline Transition Metal and Oxides for Lithium Storage - G. Wang, J. Ahn, Y. Chen, J. Yao, and H. Liu (University of Wollongong)

272

Cathodic Electrolytic Deposited SnO_2 Anode for Lithium Thin Film Battery - H. Wen-Hsien and Y. Shiow-Kang (National Chung Hsing University)

273

Mössbauer Spectroscopy as an Efficient Tool to Study Li Insertion Mechanisms in Negative Electrode for Li-ion Batteries - F. Robert, P.E. Lippens, L. Aldon (Université Montpellier II), M. Morcrette (Université de Picardie-Jules-Vernes), J. Olivier-Fourcade, and J.-C. Jumas (Université Montpellier II)

274

All-Solid-State Lithium Secondary Batteries with SnS-P₂S₅ Negative Electrodes and Li₂S-P₂S₅ Solid Electrolytes - A. Hayashi, T. Konishi, K. Tadanaga, T. Minami, and M. Tatsumisago (Osaka Prefecture University)

275

TiO_2 – B Nanowires – Potential Anodes for Li-ion Batteries - A.R. Armstrong, G. Armstrong, J. Canales, and P.G. Bruce (University of St. Andrews)

276

Novel Nanocrystalline Electrode Materials for Lithium Batteries - P. Balaya, H. Li, L. Kienle, and J. Maier (Max Planck Institute for Solid State Research)

277

Effects of Nanocrystallinity in Electrode Materials for Lithium Batteries - Interfacial storage - P. Balaya, H. Li, M. Dolle, J. Jamnik, and J. Maier (Max Planck Institute for Solid State Research)

278

A Combinatorial Materials Science Study of a-SiO_x Anodes - A.A. Abdo and J.R. Dahn (Dalhousie University)

279

Li-doping Process for LixSiO Negative Active Material Synthesized by Chemical Method for Lithium-ion Cells - T. Tabuchi, H. Yasuda, and M. Yamachi (Japan Storage Battery Co., Ltd.)

280

Solid Solution of Nickel Oxide and Manganese Oxide as Negative Active Material for Lithium Secondary Cells - X. Liu, H. Yasuda, and M. Yamachi (Japan Storage Battery Co., Ltd.)

281

Cobalt-Doped Mn3O4 as an Alternative Anode for Lithium Ion Batteries - D. Pasero, N. Reeves, and T. West (The University of Sheffield)

Time

Abs#

Title

282

Towards More Accurate First Principles Prediction of the Li Intercalation Voltage in Transition-Metal Oxides With LDA+U - F. Zhou, M. Cococcioni, C. Marianetti, D. Morgan, and G. Ceder (Massachusetts Institute of Technology)

283

Computational Study of Voltage, Stability, and Transport Properties of LixMPO4 Olivine Cathodes - D. Morgan, A. Van der Ven, F. Zhou, M. Cococcioni, and G. Ceder (Massachusetts Institute of Technology)

284

Phosphate Based Cathode Material for Lithium-Ion Batteries - M.Y. Saidi, J. Swoyer, H. Huang, B. Huang, T. Faulkner, and J. Barker (Valence Technolgy, Inc.,)

285

Electroactive LiMPO4F Phases - J. Barker, R.K.B. Gover, J. Swoyer, and M.Y. Saidi (Valence Technology, Inc,)

286

Electrochemical Properties of Carbon Coated LiFePO4 Cathode Materials - G. Wang, S. Bewlay, J.-H. Ahn, K. Konstantinov, and H. Liu (University of Wollongong)

287

LiVOPO4 as A New Cathode Materials for Li-Ion Rechargeable Battery - A. Bustam (Oita University), T. Isihara (Kyushu University), H. Nishiguchi, and Y. Takita (Oita University)

288

Physical and Electrochemical Properties of LiFePO4/Carbon Composite Synthesized at Various Pyrolysis Periods - K.-F. Hsu (National Cheng Kung University), B.-J. Hwng (National Taiwan University of Science & Technology), and S.-Y. Tsay (National Cheng Kung University)

289

Preparation of LiFePO4 and Selected Li Silicates using an Iron (III) Citrate-Based Sol-Gel Procedure - M. Gaberscek, R. Dominko, M. Bele (National Institute of Chemistry), M. Remskar, D. Hanzel (Jozef Stefan Institut), and J. Jamnik (National Institute of Chemistry)

290

Mechanism of LiFePO4-Carbon Composite Formation from Citrate-Based Gels - R. Dominko, M. Gaberscek, M. Bele (National Institute of Chemistry), M. Remskar, D. Hanzel (Jozef Stefan Institute), I. Arcon (Nova Gorica Polytechnic), and J. Jamnik (National Institute of Chemistry)

291

Spray-Pyrolysis Approach for Synthesis of Composite Carbon-LiFePO4 Cathode Materials - K. Konstantinov, S. Bewlay, G.X. Wang, H.K. Liu, and S.X. Dou (Institute for University of Wollongong)

292

Synthesis of Olivine LiFePO_4 Cathode Materials by Mechanical Alloying Using Iron(‡V) Raw Material - C.W. Kim (Hanyang University), W.T. Jeong (Korea Institute of Science and Technology(KIST)), and K.S. Lee (Hanyang University)

293

Ultrafine LiFePO_4 Synthesized by an Optimized Hydrothermal Process - G. Nuspl, C. Vogler, M. Eisgruber, L. Wimmer, N. Schall (Sued-Chemie AG), C. Fietzek, and W. Weydanz (Sanyo Energy Europe GmbH)

294

Preparation of LiFePO4 Powders by Co-Precipitation - W.-S. Ke, M.-R. Yang, and S.-H. Wu (Tatung University)

295

A Versatile New Synthesis of Carbon Rich LiFePO_4 Enhancing Its Electrochemical Properties - E.M. Bauer, C. Bellitto, G. Righini (Istituto di Struttura della Materia CNR,), M. Pasquali (Università di Roma), and P.P. Prosini (ENEA, IDROCOMB)

296

Preparation of Olivine LiFePO4 by a Solution Method - S.-H. Wu and K.-M. Hsiao (Tatung University)

297

Formation of Impurities on Phospho-olivine LiFePO4 During Hydrothermal Synthesis - K. Shiraishi (Tokyo Metropolitan University) and K. Kanamura (CREST of Japan Science and Technology Corporation)

298

Electrochemical Properties of LiFePO_4 Thin Films Prepared by Pulsed Laser Deposition - Y. Iriyama, C. Yada, M. Yokoyama (Kyoto University), S.-K. Jeong (Lawrence Berkeley National Laboratory), T. Abe (Kyoto University), M. Inaba (Doshisha University), and Z. Ogumi (Kyoto University)

299

Effects of Particle Size of LiFePO4 on its Thermal Stability by Accelerating Rate Calorimetry - J. Jiang and J. Dahn (Dalhousie University)

300

Kinetic Considerations on Olivine Cathodes - M. Yonemura, Y. Takei, T. Inada, N. Sonoyama, A. Yamada, and R. Kannno (Tokyo Insitute of Technology)

301

Fluoride Phosphate Li_2CoPO₄F as High-voltage Cathodes in Li-ion Batteries - S. Okada, M. Ueno, Y. Uebou, and J.-I. Yamaki (Kyushu University)

302

Cathode Properties of Amorphous and Crystalline FePO_4 - S. Okada, T. Yamamoto, Y. Okazaki, J.-I. Yamaki (Kyushu University), M. Tokunaga, and T. Nishida (Kinki University)

303

Electrochemical Properties of LiFePO4 Composite for Lithium Polymer Battery - J.-U. Kim (Chonbuk National University), M. Kong, and H.-B. Gu (Chonnam National University)

304

LiFePo4: Influence of Synthesis Parameters - G. Arnold, P. Axmann, M. Wohlfahrt-Mehrens, and J. Garche (ZSW - Center for Solar Energy and Hydrogen Research)

305

Preparation of Dense LiFePO4/C Composite Electrodes Applicable for High Power Batteries - T. Takeuchi, M. Tabuchi, A. Nakashima (National Institute of Advanced Industrial Science and Technology (AIST)), T. Nakamura, Y. Miwa (Himeji Institute of Technology), H. Kageyama, and K. Tatsumi (National Institute of Advanced Industrial Science and Technology (AIST))

306

Investigation of Reaction Processes for Synthesis of LiFePO₄ by Solid-State Reactions - D. Wang, Z. Wang, H. Li, X. Huang, and L. Chen (Chinese Academy of Sciences)

307

Synthesis and Electrochemical Study of Si-Doped LiNixMnyCo(1-x–y)O2 as Cathode Material for Secondary Li-ion Battery - S.-H. Na, H.-S. Kim, S.-I. Moon (Korea Eelectrotechnology Research Institute), and J.-C. Lee (Daejung Chemicals & Metals Co)

308

Synthesis and Electrochemical Performances of Layered LiNi0.4Mn0.4Co0.2O2 Prepared by Solution Combustion Method - H.-S. Kim (Korea Eelectrotechnology Research Institute), P. Periasamy (Central Electrochemical Research Institute), S.-H. Na, S.-I. Moon (Korea Eelectrotechnology Research Institute), and J.-C. Lee (Daejung Chemicals & Metals Co.,)

309

Characterization of Li_1+yNi_xCo_1-2xMn_xO_2 Positive Active Materials for Lithium Ion Batteries - K. Shizuka, T. Kobayashi, K. Okahara (Mitsubishi Chemical Group Science and Technology Research Center, Inc.), S. Kanzaki, and R. Knanno (Tokyo Institute of Technology)

310

New Layered Structure LiNi1/3Co1/3Al1/3O2 Prepared Via a Water-In-Oil Microemulsion Method - Y.-K. Lin, C.-H. Lu (National Taiwan Univ.), H.-C. Wu, and M.-H. Yang (Materials Research Laboratories, ITRI)

311

Synthesis and Electrochemistry of Layered (1-x)LiNi0.5Mn0.5O2 • xLi[Li1/3Mn2/3]O2 • yLiCoO2 (0<=x=y<=0.3 and x+y=0.5) Cathode Materials - L. Zhang, K. Takada, N. Ohta, K. Fukuda, M. Osada, L. Wang (National Institute for Materials Science), T. Sasaki (Japan Science and Technology Agency (JST)), and M. Watanabe (National Institute for Materials Science)

312

Synthesis and Electrochemical Properties of Li[Ni_1/3Co_1/3Mn_(1/3-x)Mg_x]O_2-yF_{y - G.-H. Kim (Hanyang University), S.-T. Myung (VK Corporation), Y.-K. Sun (Hanyang University), H.-S. Kim, and S.-I. Moon (Korea Electrotechnology Research Institute(KERI))

313

Effect of Cathode Structure on Cell Performance in Wireless Charging Process - S.-K. Hu, T.-C. Chou (National Cheng Kung University), and B.-J. Hwang (National Taiwan University of Science and Technology)

314

Structural and Electrochemical Characterization of Overlithiated Li_1+x(Ni₀.425Mn₀.425Co₀.15)₁-xO₂ Materials - N. Tran, L. Croguennec (Université Bordeaux I), C. Jordy, P. Biensan (SAFT), and C. Delmas (Université Bordeaux I)

315

Effect of Mixing Li-Mn Spinel and Li-Ni-Co-Mn Oxide on Storage Characteristics - H. Kitao, T. Fujihara, K. Takeda, N. Nakanishi, T. Ikemachi, and T. Nohma (Mobile Energy Company, Sanyo Electric Co., Ltd.)

316

Synthesis and Electrochemical Characterization of Layered LiNi1/3Co1/3Mn1/3O2 Cathode Materials for Li-Ion Batteries - G. Hu, X. Yu, Z. Peng, J. Xiao, and Y. Liu (Central South University)

317

Development of a Lithium Ion Battery Using a New Cathode Material - T. Nukuda, T. Inamasu, A. Fujii, D. Endo, H. Nakagawa, S. Kozono, T. Iguchi, J. Kuratomi, K. Kohno, S. Izuchi, and M. Oshitani (Yuasa Corporation)

318

Studies on Thermal Stability of Li[NixCo1-2xMnx]O2 (x = 0.1, 0.2, 0.35, 0.45, and 0.5) by Accelerating Rate Calorimetry - J. Jiang (University), K. Eberman, L. Krause (3M Co.), and J. Dahn (University)

319

Electrochemical and Thermal Comparisons of Li[Ni0.1Co0.8Mn0.1]O2 Synthesized at Different Temperatures (900°C, 1000°C, and 1100°C) - J. Jiang (Dalhousie University), K. Eberman, L. Krause (3M Co.), and J. Dahn (Dalhousie University)

320

Anionic Impurities on the Surface of LiNi_0.8Co₀.1Mn₀.1O₂ Cathode - D. Im, Y.-M. Choi, G.S. Kim, Y.N. Ham, and S.G. Doo (Samsung Advanced Institute of Technology)

321

Influence of the Synthesis Route on the Structural and Electrochemical Properties of LiNi_0.425Mn₀.425Co₀.15O₂ - N. Tran, L. Croguennec (Bordeaux I), C. Jordy, P. Biensan (SAFT), and C. Delmas (Bordeaux I)

322

X-ray Absorption Spectroscopic Studies of Li_1-xCo₁/3Ni₁/3Mn₁/3O₂ for Li Rechargeable Batteries - W.-S. Yoon, M. Balasubramanian, X.-Q. Yang, and J. McBreen (Brookhaven National Laboratory)

323

Effects of Synthesis on Electrochemical, Structural and Physical Properties of Ternary/Quaternary Solution Phases of Li_2MnO₃ - LiMO₂ - P. Whitfield, S. Niketic, and I. Davidson (National Research Council Canada)

324

Structural and Electrochemical Properties of Li[Ni_0.5Mn₀.5]₁-xCo_xO₂ Cathode Materials - S.-H. Park, S.-W. Oh, Y.-K. Sun (Department of Chemical Engineering), and C.-W. Park (Korea Electronics Technology Institute(KETI))

325

Synthesis and Electrochemical Properties of Mo⁶⁺ doped Layered Li[Ni_1/3+xCo₁/3Mn₁/3-2xMo_x]O₂ Cathode Materials for Lithium Secondary Batteries - S.-H. Park, S.-W. Oh, and Y.-K. Sun (Department of Chemical Engineering)

326

Electrochemical Performance of Li[NixCo1-2xMnx]O2 Cathode Material Synthesized by Sol-Gel Method - C.-H. Chen, B.-J. Hwang, and C.-J. Wang (National Taiwan Universityof Science and Technology)

327

Structural and Electrochemical Characterization of Li[(CoNi1/2Mn1/2)x (Li1/3Mn2/3)(1-2x)]O2 Solid Solutions with Layered Lithium Manganese Oxides - M.H. Cho, K.S. Park, S.J. Jin, C.H. Song, K.S. Nahm, and G.E. Choi (Chonbuk National University)

328

Preparation and Characterization of Li(Ni,Mn,Me)O2 Materials - P. Axmann, W. Weirather, and M. Wohlfahrt-Mehrens (ZSW - Center for Solar Energy and Hydrogen Research)

329

Synthesis and Improved Electrochemical Performance of Al(OH)_3-coated Li[Ni₁/3Co₁/3Mn₁/3]O₂ Cathode Materials at Elevated Temperature and Discharge Rate - S.B. Jang and Y.K. Sun (Hanyang University)

330

Electrochemical Behaviors of LiCo1/3Ni1/3Mn1/3O2 in Lithium Batteries at Elevated Temperatures - N. Yabuuchi and T. Ohzuku (Osaka City University)

331

Li De-Intercalate Mechanism of the Layered LiNi_1/3Mn₁/3Co₁/3O₂ - H. Kobayashi (National Institute of Advanced Industrial Science and Technology (AIST)), Y. Arachi (Kansai University), S. Emura (Osaka University), H. Kageyama, K. Tatsumi (National Institute of Advanced Industrial Science and Technology (AIST)), and T. Kamiyama (High Energy Accelerator Research Organization (KEK))

332

Electrochemical and Structural Properties of xLi2M'O3.(1-x)LiMn0.5Ni0.5O2 Electrodes for Lithium Batteries - J.-S. Kim, C. Johnson, J. Vaughey (Argonne National Laboratory), S. Hackney (Michigan Technological University), W.-S. Yoon (Brookhaven National Laboratory), C. Grey (State University of New York), and M. Thackeray (Argonne National Laboratory)

333

Enhanced Electrochemical Properties of Li[Ni_0.5Mn_0.5]O₂ by Al and Ti doping - S.-T. Myung, S. Komaba, N. Hirosaki, and N. Kumagai (Iwate University)

334

Effect of Fluorine on the Electrochemical Properties of Layered Li(Ni_0.5Mn₀.5)O₂ Cathode Materials - S.-H. Kang, I. Belharouak (Argonne National Laboratory), Y.-K. Sun (Hanyang University), and K. Amine (Argonne National Laboratory)

335

Layered Li(Li_0.2Ni₀.2-x+zCo₂xMn₀.6-x-z)O₂-2zF₂z Cathode Materials for Li-ion Secondary Batteries - S.-H. Kang and K. Amine (Argonne National Laboratory)

336

Electrochemical Characteristics of LiNi0.5Mn0.5-xSnxO2 as Positive Electrode Materials for Lithium Secondary Batteries - J.-G. Li (Beijing Continental Battery Co. Ltd.), C.-R. Wan (Institute of Nuclear Energy Technology), D.-P. Yang, and Z.-P. Yang (Beijing Continental Battery Co. Ltd.)

337

Layered Li[NiXLi(1-2X)/3Mn(2-X)/3]O2 Cathode Material Synthesized by Sol-Gel Method - B.-J. Hwang, Y.-W. Tsai, C.-H. Chen, and C.-J. Wang (National Taiwan University of Science and Technology)

338

Understanding the Superstructures of Layered O3 Li(Ni_xLi₁/3-2x/3Mn₂/3-x/3)O₂ Compounds - Y. Shao-Horn, S. Meng, G. Ceder (Massachusetts Institute of Technology), C. Grey (SUNY Stony Brook), and J. Gorman (Massachusetts Institute of Technology)

339

The Study of LiNi_0.5Mn₁.5O₄ Five-Volt Cathodes for Li-ion Batteries - Y. Talyosef, B. Markovsky, G. Salitra, D. Aurbach (Bar-Ilan University), H.-J. Kim, and S. Choi (LG Chem)

340

Synthesis and Electrochemical Performance of LiNi_0.5Mn_1.5O₄ Spinel as Cathode Material for Lithium Ion Batteries - G. Liu and Q. Lu (Peking University)

341

Synthesis and Electrochemical Behavior of Bare and ZnO-coated LiFeO2-LixMnO2 Materials - Y.-S. Lee (Chonnam National University), S. Sato, K. Kobayakawa, Y. Sato (Kanagawa University), and Y.-K. Sun (Hanyang University)

342

Redox Processes in T^#2-Li_xCo_2/3Mn_1/3O₂ From ⁷Li MAS NMR, XAS and Electrical Properties. - M. Menetrier, F. Tournadre, S. Komaba (Université Bordeaux1), M. Morcrette (LRCS, Université de Picardie Jules Verne), P. Willmann (CNES), L. Croguennec, and C. Delmas (Université Bordeaux1)

343

Thermal and Electrochemical Structure Modification from T^#2- to O6-Li_xCo₂/3Mn₁/3O₂ - S. Komaba, F. Tournadre, L. Croguennec (Universite Bordeaux I), P. Willmann (Centre National d’Etudes Spatiales), and C. Delmas (Universite Bordeaux I)

344

Electrochemical Properties of Layered Li[Li_0.2Cr₀.4Mn₀.4]O₂ as Cathode Materials for Li-Ion Batteries - Y. Chen, G. Wang, J. Wang, H. Liu, and S. Dou (University of Wollongong,)

345

Electrochemical Performance of Spray-Dried Lithium Titanate as Cathode Materials - Z. Wen, Z. Gu, S. Huang, J. Yang, Z. Lin (Chinese Academy of Sciences), and O. Yamamoto (Genesis Research Institute, Inc.)

346

Raman Investigation of the Structural Changes in Anatase LixTiO2 Upon Electrochemical Lithium Insertion - R. Baddour-Hadjean (CNRS-LADIR), S. Bach (CNRS-LECSO), M. Smirnov (Université de Saint Pétersbourg), and J.-P. Pereira-Ramos (CNRS-LECSO)

347

Electrochemical Properties of Rock-Salt Type Li1+x/3Ni0.5-2/xTi0.5+x/6O2 Prepared by Spray Dry Method - H. Noguchi, D. Li, and T. Muta (Saga University)

348

Nano-Structured Li2NiTiO4 as A New High Voltage Positive Electrode for Lithium Batteries: Microstructural and Electrochemical properties - S. Prabaharan, S. Michael (Multimedia University), H. Ikuta, Y. Uchimoto, and M. Wakihara (Tokyo Institute of Technology)

349

The Lithiated-Delithiated Properties of A New Compound LiNi_0.5Ti_0.5O₂ with Cubic Structure - Y. Sun, Z. Wang, X. Huang, and L. Chen (Chinese Academy of Sciences)

350

Lithium Iron Silicate and Germanate as New Cathode Materials - A. Abouimrane, N. Ravet, M. Armand (University of Montreal), A. Nytén, and J. Thomas (Uppsala University)

351

Cathodes for Lithium Batteries:LiCoVO4 Revisited - N. Van Landschoot, E. Kelder, and J. Schoonman (Delft University of Technology)

352

A New Family of Polyanion Compounds, LixM’2(MoO4)3 {0 x<4}, [M’=Ni, Co] as Positive Electrode Materials for Lithium-Ion Batteries - M. Begam (University Kuala Lumpur - Malaysia France Institute), S. Michael, and S. Prabaharan (Multimedia University)

353

Li_2CuO₂-Li₂NiO₂ Solid Solution Compounds as Lithium Intercalation Cathode - N. Imanishi, T. Ikenishi, A. Hirano, T. Matsumura, and Y. Takeda (Mie University)

Time

Abs#

Title

354

Mixed Ionic Liquids as Electrolytes For Lithium Batteries - M. Diaw (Université Cheikh Anta Diop), A. Chagnes, B. Carre, and D. Lemordant (Faculté des Sciences et Techniques)

355

Cyano-Containing Quaternary Ammonium-Based Ionic Liquid as a ‘Co-solvent’ for Lithium Battery Electrolyte - M. Egashira, M. Nakagawa, I. Watanabe, S. Okada, and J.-I. Yamaki (Kyushu University)

356

Alkylated Imidazolium Salt Electrolyte for Lithium Cells - K. Hayashi, Y. Nemoto, K. Akuto, and Y. Sakurai (NTT Corporation)

357

Discharge-Charge Properties of Li/LiCoO_2 Cell Using Room Temperature Ionic Liquids (RTILs) Based on Quaternary Ammonium Cation – Effect of the Structure - H. Sakaebe, H. Matsumoto, and K. Tatsumi (National Institute of Advanced Industrial Science and Technology (AIST))

358

Surface Analysis of Al Current Collector Oxidized in the Electrolyte Containing Room Temperature Ionic Liquid (RTIL) - H. Sakaebe, R. Matsumiya, H. Matsumoto, and K. Tatsumi (National Institute of Advanced Industrial Science and Technology (AIST))

359

Coulombic Efficiency of Li Plating/Stripping in Room Temperature Ionic Liquid (RTIL) Based on the Asymmetric Quaternary Aammonium Cation - H. Sakaebe, N. Nakayama, H. Matsumoto, and K. Tatsumi (National Institute of Advanced Industrial Science and Technology (AIST))

360

Development of the Nonflammable Lithium Secondary Battery with an Ambient Temperature Molten Salt Electrolyte - K. Ui, K. Ishikawa, T. Minami, Y. Idemoto, and N. Koura (Tokyo University of Science)

361

Application to Lithium Battery of Polymer / Ionic Liquid Composite as Gel or Solid Electrolyte - S. Wakita, M. Sada, K. Yamamoto, S. Okazaki, and K. Uno (Trekion Co., Ltd.)

362

Ion Transport Properties of Lithium Ionic Liquids and Ion Gels - H. Shobukawa, H. Tokuda, and M. Watanabe (Yokohama National University)

363

Pyrazolium Imides Plastic Crystals: A New Solid-State Electrolyte Matrix. - P.-J. Alarco, A. Abouimrane, Y. Abu-Lebdeh, and M. Armand (Université de Montréal)

364

Dry LiBOB-based Polymer Electrolytes for Lithium Batteries - D. Zane (CNR-ISMN), G.B. Appetecchi, and B. Scrosati (University of Rome)

365

New Li^+ Ion Conducting (Gd, La)₂O₃-LiNO₃ Solids - S. Tamura, A. Mori, and N. Imanaka (Osaka University)

366

Formation of Nano-sized Particles of a Solid Electrolyte by Laser Ablation - K. Takada, R. Ma, M. Osada, N. Ohta, L. Zhang, and T. Sasaki (National Institute for Materials Science)

367

Solid Electrolyte, thio-LISICON, Thin Film Prepared by Pulsed Laser Deposition - N. Ohta, K. Takada, L. Zhang, T. Sasaki, and M. Watanabe (National Institute for Materials Science)

368

New Electrode System with Three Dimensionally Ordered Structure using Li+ Ion Conductor - N. Akutagawa (Tokyo Metropolitan University) and K. Kanamura (CREST of Japan Science and Technology Corporation)

369

Design of Composite Positive Electrode in All-Solid-State Secondary Batteries with Li₂S-P₂S₅ Glass-Ceramic Electrolytes - F. Mizuno, A. Hayashi, K. Tadanaga, T. Minami, and M. Tatsumisago (Osaka Prefecture University)

370

Electrical and Electrochemical Properties of Li₂S-P₂S₅-P₂O₅ Glass-Ceramic Electrolytes - T. Ohtomo, F. Mizuno, A. Hayashi, K. Tadanaga, and M. Tatsumisago (Osaka Prefecture University)

371

The Development of High Voltage and High Capacity All-Solid-State Lithium Secondary Batteries - Y. Kobayashi, S. Seki, A. Yamanaka, H. Miyashiro, Y. Mita, and T. Iwahori (Central Reseach Institute of Electric Power Industry)

372

Fabrication and Electrochemical Properties of All Solid-State Cell Using Thio-LISICON(Li4-xGe1-xPxS4) as Solid Electrolyte - T. Kobayashi, M. Murayama, K. Sakamoto, N. Sonoyama, A. Yamada, T. Inada (Tokyo Institute of Technology), S. Kondo (Ion Engineering Research Institute Corp.), and R. Kanno (Tokyo Institute of Technology)

373

Research on Li1.4Al0.4(Ge1-xTix)1.6(PO4)3(x =0.33) Glass-Ceramic Electrolyte - X. Xu, Z. Wen, Z. Lin (Chinese Academy of Sciences), and O. Yamamoto (Genesis Research Institute)

Time

Abs#

Title

374

Surface Properties of Bare and TiO2-Coated Cathode Materials - Z. Zhang, Z. Gong, H. Liu, and Y. Yang (Xiamen University)

375

Development of "Super Iron" Cathodes for Primary Alkaline Cells and Rechargeable Lithium Ion Batteries - M. Koltypin and D. Aurbach (University Bar-Ilan)

376

In-situ AFM Imaging of Surface Films Phenomena on Vanadium-Pentoxide Cathodes in LiPF6 Solutions for Li-ion Batteries - Y.S. Cohen and D. Aurbach (Department of Chemistry)

377

Understanding the Impedance Behavior of Porous Composite Insertion Electrodes and Single-Particle Microelectrodes - M. Levi and D. Aurbach (Bar-Ilan University)

378

^1Li and ¹H MAS NMR Observation of Surface Layers on Lithium Nickel Oxide Based Positive Electrodes of Lithium-Ion Batteries - M. Ménétrier, L. Croguennec, C. Delmas (Université Bordeaux1), C. Jordy, F. Bonhomme, and P. Biensan (SAFT, direction de la recherche)

379

Studying Electrode Contributions to Impedance Rise with Lithium-Tin Reference Electrodes - D. Abraham (Argonne National Laboratory)

380

The Reaction of LixCoO2 with Nonaqueous Solvents and Electrolytes at Elevated Temperature - M. Onuki, S. Kinoshita, and M. Ue (Mitsubishi Chemical Group Science and Technology Research Center, Inc.)

381

Performance and Thermal Stability of LiCoO2 Cathode Modified with Room-Temperature Molten Salt - S.-Y. Lee, H.H. Yong, S.K. Kim, and S. Ahn (Batteries R&D, LG Chemical Ltd.)

382

Study the Fading Mechanism of LiMn2O4 Battery with Spherical and Flake Type Graphites - H.-C. Wu, Z.-Z. Guo, and M.-H. Yang (ITRI)

383

Studies on the Electrolyte/Cathodic Thin Film Interface Formed Upon Cycling of Lithium Microbatteries - A. Gies, M.-H. Lindic, B. Pecquenard, P. Vinatier, A. Levasseur (ICMCB/ENSCPB), H. Fuess (Technical University of Darmstadt), A. Benayad, H. Martinez, and D. Gonbeau (LCTPCM)

384

Identification of Li-Based Electrolyte Degradation Product Through High Resolution Mass Spectrometry and Infrared Spectroscopy - L. Gireaud, S. Laruelle, S. Grugeon, S. Pilard (Université de picardie Jules Verne), P. Guenod (Université de Rennes 1), and J.-M. Tarascon (Université de picardie Jules Verne)

385

Interface Stability in Si-Based Alloy/Li-Si-O-N/LiCoO2 - D.-S. Park, H.-W. Lee, S.-T. Lee, and S.-M. Lee (Kangwon National University)

386

Degradation Mechanism Analysis of All Solid-State Lithium Polymer Rechargeable Batteries - S. Seki, Y. Kobayashi, H. Miyashiro, A. Yamanaka, Y. Mita, and T. Iwahori (Central Research Institute of Electric Power Industry)

387

Preparation of All-Solid-State Thin Film Lithium-Ion Batteries (Li/LiPON/LiCoO2) and Their Electrochemical Properties - Y. Iriyama, T. Kako, T. Abe, and Z. Ogumi (Kyoto University)

388

Ion Transfer at Interface Between Lithium Conductive Electrolytes - F. Sagane, T. Abe, Y. Iriyama, and Z. Ogumi (Kyoto University)

389

Capacity Degradation of Lithium Rechargeable Batteries - J. Zheng, P. Moss (Florida A&M University and Florida State University), R. Fu, Z. Ma, Y. Xin (National High Magnetic Field Laboratory), and G. Au (US Army Communications_Electronics Command)

390

Variable-Rate Capacity Degradation Model for Li-Ion Batteries - D. Danilov (Eindhoven University of Technology) and P. Notten (Philips Research Laboratories)

391

Improvement of Cycle Stability and Rate Capability of Li-Ion Batteries - I. Kottegoda, Y. Kadoma, H. Ikuta, Y. Uchimoto, and M. Wakihara (Tokyo Institute of Technology)

392

Characterization of All-Solid-State Lithium Microbatteries - H.-S. Moon, K.-L. Lee, and J.-W. Park (Hanyang University)

393

Fabrication by Using a Sputtering Method and Charge-Discharge Properties of Large-Sized and Thin-Filmed Lithium Ion Rechargeable Batteries - H. Nakazawa, K. Sano (Geomatec Co. Ltd.), and M. Baba (Iwate University)

394

Miniature Pin-type Lithium Batteries for Medical Applications - M. Nagata, A. Saraswat, H. Nakahara, H. Yumoto, D. Skinlo, K. Takeya, and H. Tsukamoto (Quallion LLC)

395

Stacked-Type Li-Ion Rechargeable Batteries Internally Connected in Series for a High-Voltage Solid-State Power Source - M. Baba (Iwate University)

396

Lithium Fuel Cells - S.J. Visco, E. Nimon, B. Katz, L.C. De Jonghe, and M.-Y. Chu (PolyPlus Battery Battery Company)

397

Lithium Air Batteries - S.J. Visco and E. Nimon (PolyPlus Battery Battery Company)

398

Lithium Air Batteries Using Hydrophobic Room Temperature Ionic Liquid Electrolyte - T. Kuboki, T. Okuyama, T. Ohsaki, and N. Takami (TOSHIBA Reserch and Development Center)

399

Properties of Lithium-Ion Polymer Batteries Stored at High Temperature - H. Huang, X. Yu, and J. Xie (Chinese Academy of Sciences)

400

Safety Tests on Cycled Lithium Ion Polymer Batteries - H. Huang, J. Xie, and K. Wang (Chinese Academy of Sciences)

401

Lithium-ion Gel-Polymer Cells for Low Temperature Applications - I. Hill (National Research Council Canada), E. Andrukaitis (Defence Research and Development Branch), and G. Torlone (National Research Council Canada)

402

Impact of Battery Chemistry on the Safety of Lithium Ion and Polymer Batteries - S. Ahn, J.Y. Kim, P.G. Park, S.Y. Lee, H.H. Yong, S.K. Kim, B. Oh, Y. Kim, and M. Son (LG Chem)

403

An Investigation on Thermal Properties of Lithium-ion Polymer Cells - X. Wang (Japan Aerospace Exploration Agency), H. Ishikawa (Tohoku University), Y. Sone (Japan Aerospace Exploration Agency), H. Ito, M. Mohamedi (Tohoku University), S. Kuwajima (Japan Aerospace Exploration Agency), and I. Uchida (Tohoku University)

404

Thermal Study on Single Electrode in Lithium Ion Battery - Z. Jiang, Q. Huang, and M. Yan (Fudan University)

405

Thermal Behaviors of Lithium-Ion Batteries During High Rate Pulse Cycling - Y. Saito (National Institute of Advanced Industrial Science and Technology)

406

Recent Progress in Energy and Safety Enhancements of VARTA´s PoLiFlex Batteries - D. Ilic (VARTA Microbattery GmbH)

407

SEPARION®: New Ceramic Separator for Large Scale Lithium Nickel Cobalt Oxide Based Batteries - V.D. Dr. Hennige, G. Dr. Hörpel, C. Dr. Hying, S. Augustin (Degussa, Creavis Technolgies and Innovation), P. Dr. Biensan, S. Herreyre (Saft), M. Dr. Wohlfahrt-Mehrens, and M. Kasper (Center for Solar Energy and Hydrogen Research (ZSW))

408

SEPARION®: New Ceramic Separator for Large Scale Lithium Manganese Oxide Based Batteries - V. Dr. Hennige, G. Dr. Hörpel, C. Dr. Hying, S. Augustin, and T. Sumida (Degussa, Creavis Technologies and Innovation)

409

Development of New Safe Electrode for Lithium Rechargeable Battery - M. Kise, S. Yoshioka, K. Hamano, D. Takemura, and T. Nishimura (Mitsubishi Electric Corporation)

410

Intra-Electrode Thermal Switch Using Composite Conducting Agent - J.Y. Kim, P.K. Park, and S. Ahn (LG Chem, Ltd.)

411

A Powder Particle Size Effect on Ceramic Powder Based Separator for Lithium Rechargeable Batteries - D. Takemura, S. Aihara, K. Hamano, M. Kise, and T. Nishimura (Mitsubishi Electric Corporation)

412

Electrolyte Additives for Shut-Down Film-Formation at Overcharged Cathodes in Lithium-Ion Batteries - A. Hosseinmardi, M. Winter, J. Besenhard, and K.-C. Moeller (Graz University of Technology)

413

Performance and Management of Implantable Lithium Battery Systems for LVAD and TAH - J. Dodd, C. Kishiyama, H. Mukainakano, M. Nagata, and H. Tsukamoto (Quallion LLC)

414

A Combinational Approach to Predict Lithium-Ion Battery Life - B.Y. Liaw (University of Hawaii), A. Urbina, R.G. Jungst (Sandia National Laboratories), K.C. Yap (ACTA Inc.), and D.H. Doughty (Sandia National Laboratories)

415

Development of High Power Lithium Secondary Battery for Hybrid Electric Vehicles (HEVs). - J. Arai, Y. Muranaka (HItachi Research Laboratory, Hitachi Ltd.), T. Maeshima, M. Koseki, and T. Horiba (Shin-Kobe Electric Machinary Co. Ltd.)

416

Free-Standing Lithium-Ion Batteries with a Novel Intrinsically Porous Separator - G.B. Appetecchi, P. Villano, L. Marida, M. Carewska (ENEA, C.R. Casaccia), M.G. Puppo (FERRANIA SpA), P.G. Bernini (ARCOTRONICS SpA), and P.P. Prosini (ENEA, C.R. Casaccia)

417

Selection of Positive Active Materials of Lithium-ion Battery for Hybrid Electric Vehicles - H. Yamane, S. Kitano, T. Sasaki, H. Tasai, H. Wada, T. Murata, and M. Yamachi (Japan Storage Battery Co. Ltd)

418

Demonstration of Power Storage System with 24kWh Li-ion Batteries - K. Imasaka, K. Hashizaki, H. Tajima, M. Oishi, Y. Fujioka, T. Hashimoto, T. Nishida, K. Kobayashi, T. Akiyama (Mitsubishi Heavy Industries Ltd.), K. Adachi, H. Shibata, and M. Kai (Kyushu Electric Power Co., Inc.)

419

Carbon-Coated Lithium Iron Phosphate as Suitable Cathode Material for Power-Assist Hybrid Vehicles - D. Geoffroy (Phostech Lithium), N. Ravet (Université de Montréal), and M. Gauthier (Phostech Lithium)

420

Development and Testing of 100-kW/ 1-Minute Li-Ion Battery Systems for Energy Storage Applications - N. Clark and D. Doughty (Sandia National Laboratories)

421

Boostcharging: a Challenging New "Emergency" Charging Algorithm for Li-Ion Batteries - P.H.L. Notten, B.H.G. Op het Veld, and R.J. van Beek (Philips Research Laboratories)

422

Investigation of Lithium Battery Nanoelectrode Arrays and Their Component Nanocells - F. Vullum and D. Teeters (The University of Tulsa)

423

Fabrication of 18650 Cells with High Power-Type and Study on the Power Fade After Cycle Life Test - H. Kobayashi, S. Koike, H. Sakaebe, and K. Tatsumi (National Institute of Advanced Industrial Science and Technology (AIST))

424

Li-Ion and Li Primary Batteries on Spirit and Opportunity Mars Rovers - B.V. Ratnakumar, M.C. Smart, R.C. Ewell, L.D. Whitcanack, A. Kindler, K.B. Chin, S.R. Narayanan, and S. Surampudi (California Institute of Technology)

425

Moisture-Uptake Study by Positive Active Material From the Cast Solvent and the Ambient Environment - V. Saharan, J. Roberts, V. Manev, Y.H. Chia (Delphi Energy and Chassis Systems), G. MacLean, and S. McMullen (Delphi Energy and Chassis Systems)

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