Technical Program

Time	Abs#	Title and Authors
216th ECS Meeting - Vienna, Austria
October 4 - October 9, 2009
PROGRAM INFORMATION

B5 - Rechargeable Lithium Ion Batteries
Battery

Monday, October 5, 2009
Hall E1, Level OE - Yellow
Electrolytes 1
Co-Chairs: Martin Winter and Zempachi Ogumi
09:00	504	Electrolytes, SEI and Charge-Discharge Kinetics in Li-ion Batteries T. Jow, J. Allen, M. Marx (Army Research Laboratory), K. Nechev, B. Deveney, and S. Rickman (Saft America, Inc.)
09:30	505	Development of Electrolytes for Highly Safe Lithium-Ion Batteries A. Watarai, H. Tokuda, T. Kawai, and M. Ue (Mitsubishi Chemical Corporation)
09:50	506	New Fluorinated Lithium Salts for Lithium Ion Battery Electrolytes A. Lex-Balducci (Westfaelische Wilhelms University Muenster), R. Schmitz, R. W. Schmitz (University of Münster), N. Kalinovich, O. Kazakova, K. Vlasov (University Bremen), A. Kütt (University of Tartu), G. Röschenthaler (University Bremen), S. Passerini (University of Muenster), and M. Winter (Westfaelische Wilhelms University Muenster)
10:10	507	Borate-Based Ionic Liquids as New Electrolyte for Lithium-Ion Battery X. Zhang, H. Matsumoto (National Institute of Advanced Industrial Science and Technology), H. Sakaebe (National Institute of Advanced Industrial Science and Technology (AIST)), and K. Tatsumi (National Institute of Advanced Industrial Science and Technology)
10:30	508	Evaluation of the GBL Based Electrolyte for Li-ion Battery as a Non-Flammable Alternative D. Belov, D. Shieh, and M. Yang (ITRI)
10:50	509	Correlation Between Charge-Discharge Behavior of Graphite and Solvation Structure of Lithium-ion in Propylene Carbonate-Containing Electrolytes Y. Yamada (Kyoto University), Y. Koyama (Graduate School of Engineering, Kyoto University), T. Abe, and Z. Ogumi (Kyoto University)
11:10	510	Nonflammable Polymeric Gel Electrolyte Containing Triethylphosphate for Lithium Ion Batteries B. Lalia, N. Yoshimoto, M. Egashira, and M. Morita (Yamaguchi University)
11:30	511	Evaluation of Electrolytes Containing Flame Retardant Additives in LiNi_xCo_1-xO₂ and Li(Li_0.17Ni_0.25Mn_0.58)O₂-Based Li-Ion Cells K. Smith, M. C. Smart, W. West, J. Soler (Jet Propulsion Laboratory, California Institute of Technology), F. Krause, S. Prakash (University of Southern California), R. V. Bugga (Jet Propulsion Laboratory), L. Yang, and B. Lucht (University of Rhode Island)
11:50	512	A Candidate Electrolyte for Li-Ion Batteries F. Azeez (North Carolina State University) and P. Fedkiw (North Carolina State Univesrity)

Electrolytes 2
Co-Chairs: T. R. Jow and Michel Armand
Time	Abs#	Title and Authors
14:00		Battery division research award address- held jointly with session B4 (40 Minutes)
14:40		Battery division student research award address- held jointly with B4 (20 Minutes)
15:00		Intermission (20 Minutes)
15:20	513	Greener and Cheaper Batteries Containing Fluorine-free Binder in Combination with Ionic Liquid Based Electrolytes S. F. Lux (Westfälische Wilhelms Universität), S. Jeong (University of Münster), S. Passerini (University of Muenster), M. Winter (Westfaelische Wilhelms University Muenster), and A. Balducci (University of Münster)
15:40	514	New Anions for Lithium Batteries P. Johansson, J. Scheers (Chalmers University of Technology), and M. Armand (LRCS)
16:00	515	First Principles Simulations of Li Ion Migration in Materials Related to LiPON Electrolytes D. Yaojun and N. Holzwarth (Wake Forest University)
16:20	516	Ionic Liquids for High Voltage Lithium Batteries: Physicochemical and Electrochemical Investigations F. Alloin (LEPMI), M. Le (LEPMI/Insitut Néel), P. Strobel (Institut Néel), C. Perez del Valle (DCM), and P. Judeinstein (ICMMO)
16:40	517	The Effect of Electrolyte Additives upon the Lithium Kinetics of Li-Ion Cells Containing MCMB and LiNi_xCo_1-xO₂ Electrodes and Exposed to High Temperatures M. C. Smart (Jet Propulsion Laboratory, California Institute of Technology), R. V. Bugga (Jet Propulsion Laboratory), A. Gozdz (A123 Systems, Inc.), and S. Mani (A123 Systems' Advanced Research and Government Solutions Division)
17:00	518	LiFSI-PYR_1AFSI Binary Electrolyte Mixtures for Lithium Batteries G. B. Appetecchi (ENEA), M. Montanino (ENEA, TER Department, Casaccia Research Center), M. Carewska, F. Alessandrini (ENEA, TER Department, Casaccia Research Center, Via Anguillarese 301, 00123 Rome, ITALY), and S. Passerini (University of Muenster)
17:20	519	TFSI-based Ionic Liquids for Li-ion Batteries Operating at Elevated Temperature M. Nadherna (Institute of Inorganic Chemistry ASCR), R. Dominko, M. Gaberscek (National Institute of Chemistry Slovenia), and J. Reiter (Institute of Inorganic Chemistry)
17:40	520	Studies on Complexing Properties of New Types of Organoboron Additives in Li-ion Battery Electrolytes S. Drzewiecki, J. Kryczka, Z. Żukowska, A. Adamczyk Woźniak, M. Marcinek, A. Sporzyński, and W. Wieczorek (Warsaw University of Technology)

Tuesday, October 6, 2009
Hall E1, Level OE - Yellow
Anodes 1
Co-Chairs: Karim Zaghib and Robert Kostecki
Time	Abs#	Title and Authors
08:00	521	Synthesis and Electrochemical Studies of LiCuSnO₄ and LiCuSnSiO₆ Negative Electrodes in Lithium Batteries A. Y. Shenouda (Central Metallurgical Research and Development Institute) and H. K. Liu (Institute for Superconducting and Electronic Materials (ISEM), University of Wollongong)
08:20	522	Nanosize Tin Alloys Encapsulated by an Artificial SEI as High-Capacity and Safer Anodes for EV Lithium Batteries S. Menkin, D. Golodnitsky, and E. Peled (Tel Aviv University)
08:40	523	Study of Sn-Co-C and Sn-Fe-C Alloys Prepared by Mechanical Milling P. P. Ferguson, M. Martine, R. Dunlap, and J. R. Dahn (Dalhousie University)
09:00	524	Preparation of Nanotube TiO₂-Carbon Composite and Its Anode Performance in Lithium-Ion Batteries S. Yoon, C. Lee, M. Park (Korea Research Institute of Chemical Technology), and S. Oh (Seoul National University)
09:20	525	Fabrication of Porous Carbon/Si Composite Nanofiber Electrodes for High Capacity Rechargeable Lithium-Ion Batteries L. Ji and X. Zhang (North Carolina State University)
09:40		Intermission (20 Minutes)
10:00	526	In-situ Study on Working Sn Anode Particles of Li-Ion Battery by Transmission X-Ray Microscopy S. Chao, Y. Yen, N. Wu (National Taiwan University), Y. Song, Y. Chen (National Synchrotron Radiation Research Center), and H. Wu (Industrial Technology Research Institute)
10:20	527	Anode Reactions of a Tin Thin Film Electrode Modified with an Ion-Conductive Polymer in a Room-Temperature Ionic Liquid Electrolyte Y. Kaga, Y. Katayama, T. Miura (Keio University), and S. Komaba (Tokyo University of Science)
10:40	528	In-situ ¹¹⁹Sn Mossbauer Effect Study of the Failure Mechanism of Amorphous Si Electrodes A. J. Smith, J. Li, R. Dunlap, and J. R. Dahn (Dalhousie University)
11:00	529	Silicon Nanowire/Carbon Composite Electrodes for Lithium-ion Battery Anodes C. K. Chan and Y. Cui (Stanford University)
11:20	530	Nanosized Si/Cellulose Fiber/Carbon Composites as High Capacity Anodes for Lithium-Ion Batteries: A Galvanostatic and Dilatometric Study J. Gomez-Cámer (University of Córdoba), J. Morales (Universidad de Cordoba), L. Sanchez (University of Córdoba), P. Ruch, S. Ng, R. Kötz (Paul Scherrer Institute), and P. Novák (Paul Scherrer Institut)
11:40	531	A New High Capacity Graphite-Core/Silicon-Shell Composite Material for Lithium Ion Batteries B. Fuchsbichler, C. Stangl, H. Kren, M. Sternad, R. Hohl, and S. Koller (Graz University of Technology)

Anodes 2
Co-Chairs: J. Vaughey and K.M. Abraham
Time	Abs#	Title and Authors
14:00	532	Cu-Sn Plated Carbon Fiber Electrode for Li Ion Battery J. Yao (AIST, Kansai center), K. Nishimura (Kawasaki Heavy Industries), T. Mukai (AIST), N. Takeichi (National Institute of Advanced Industrial Science and Technology), T. Takasaki, K. Tsutsumi (Kawasaki Heavy Industries), and T. Sakai (National Institute of Advanced Industrial Science and Technology)
14:20	533	AuCu₃-type Intermetallic Anodes for Lithium-Ion Batteries J. Vaughey (Argonne National Laboratory), D. Shin, C. Wolverton (Northwestern University), and M. Thackeray (Argonne National Laboratory)
14:40	534	Anode Behaviors of Immiscible Al-55 wt %Sn Alloy Thin Films for Lithium Ion Batteries R. Hu, Q. Si, M. Zeng, and M. Zhu (South China University of Technology)
15:00	535	Development of 2-Volt Class Li-Ion Battery Using Lithium Titanium Oxide Anode for Hybrid Electric Vehicles N. Takami, H. Inagaki, S. Kosugi, and K. Honda (Toshiba)
15:20	536	All-Solid Thin Film Li-Ion Rechargeable Battery with Porous Silicon Anode M. Baba, T. Ushirokawa, R. Ye, and K. Ohta (Iwate University)
15:40		Intermission (20 Minutes)
16:00	537	Studies of the Mechanism of Lithium Diffusion in Graphitic Anodes L. Hardwick, V. Sethuraman, V. Srinivasan, and R. Kostecki (Lawrence Berkeley National Laboratory)
16:20	538	Solubility of Lithium Salts Formed on the Lithium-Ion Battery Negative Electrode Surface in Organic Solvents K. Tasaki (Mitsubishi Chemical USA), A. Goldberg, J. Liang (Accelrys Software), M. Walker (Univesity of Michigan), A. Timmons, and S. Harris (GM)
16:40	539	A SnSb-C Nanocomposite as High Performance Electrode for Lithium Ion Batteries J. Hassoun (University of Rome La Sapienza), G. Derrien (ICG-AIME CNRS UMR 5253, Université Montpellier II France), S. Panero, and B. Scrosati (University of Rome, La Sapienza)
17:00	540	Negative Electrode Properties of Sn and Si Leaf Powder for Li-ion Batteries M. Saito, K. Nakai, M. Hagiwara, A. Tasaka (Doshisha University), T. Takenaka (Oike and Co.,Ltd), M. Hirota, A. Kamei (Oike Co., Ltd.), and M. Inaba (Doshisha University)
17:20	541	Interface Stability of Metallic Lithium Anodes N. J. Dudney (Oak Ridge National Laboratory)
17:40	542	New Alloy Anodes for Commercial Lithium Ion Cells M. N. Obrovac, L. Christensen, D. Le, and J. Singh (3M)

Gallery, Level 01 - Green
Poster Session - Rechargeable Lithium and Li-ion Batteries 1
Co-Chairs: Nancy Dudney and Daniel Doughty
Time	Abs#	Title and Authors
o	543	Synthesis of Precursors for LiCoO₂ Using Urea Hydrolysis Method J. Lee, J. Kim, K. Roh, and S. Park (Korea Institute of Ceramic Engineering & Technology)
o	544	Lithium Deposition in the Anode of Automotive Li-ion Batteries O. Kwon (Penn State University) and C. Wang (The Pennsylvania State University)
o	545	Electrochemical Properties of Fullerene Coated Silicon Thick Film as an Anode Material for Lithium Secondary Batteries A. Arie and J. Lee (Korea Institute of Science and Technology)
o	546	Facile Fabrication of Nanostructured Anode Materials for Reversible Li⁺ Ion Storage D. Deng and J. Y. Lee (National University of Singapore)
o	547	Chemical States and Their Spatial Mapping of Lithium in a LiNiO₂-based Positive Electrode Material S. Muto, K. Tatsumi (Nagoya University), T. Sasaki, K. Horibuchi, T. Ohsuna, H. Kondo, and Y. Takeuchi (Toyota Central R&D Laboratories Inc.)
o	548	Calibration of the Carbon Coating of LiFePO₄ Particle Prepared by Mechanosynthesis C. Benoit-Moez, S. Franger (University Paris XI-Orsay), A. Mauger, F. Gendron (University Paris 6), and C. M. Julien (Universite P. et M. Curie)
o	549	In Situ Neutron Diffraction for the Characterization of Carbon Anode for Lithium-Ion Batteries during Charging L. Liang, S. Lee, H. Choi (Korea University), B. Seong (Neutron Science division, KAERI), C. Yi (Sungshin Women's University), and K. Kim (Korea University)
o	550	Lowering Interfacial Chemical Reactivity of Oxide Materials for Lithium Batteries: A Molecular Grafting Approach J. Gaubicher, F. Tanguy, A. Gaillot (IMN-CNRS), J. Pinson (LECA-ESPCI), and D. Guyomard (CNRS-IMN)
o	551	Investigation of Solid Electrolyte/Solid Electrode Interface in the Thin Film Lithium Battery J. Song, S. Jacke, S. Schmid, G. Cherkashinin, and W. Jaegermann (Darmstadt University of Technology, Surface Science Division)
o	552	Electroreduction of Dioxygen in a Rechargeable Li-O₂ Battery Z. Peng (School of Chemistry, University of St Andrews), A. Paterson (School of Chemistry, St Andrews University), R. Stokes, D. Graham (Pure and Applied Chemistry, University of Strathclyde), and P. Bruce (University of St. Andrews)
o	553	Single Step Production of Crystalline Li₂S-P₂S₅ Based Solid State Electrolytes for Solid State Lithium-Ion Battery Applications J. Trevey and S. Lee (University of Colorado)
o	554	Properties of Lithium Rechargeable Cells Containing Carbon Prepared from Biomass T. Hirai (Toyama Prefectural University), S. Ide (Toyama Prefectural Univrsity), Y. Uno (Toyama Prefectural University), and T. Tsujikawa (NTT Facilities, Inc.)
o	555	Effect of Carbon Coating on Electrochemical Properties of LiCoO₂/Nanocarbon Composites Y. Uno, K. Tachimori (Toyama Prefectural University), T. Tsujikawa (NTT Facilities, Inc.), and T. Hirai (Toyama Prefectural University)
o	556	Interfacial Structural Stabilization of Thin Film Electrodes of Si on Cu for Lithium-ion Batteries C. Nguyen and S. Song (Chungnam National University)
o	557	Long-Term Cyclability of Lithium Electrode in LiFSI-PYR14FSI Electrolyte at Room Temperature G. Kim (ENEA, TER Department, Casaccia Research Center, Via Anguillarese 301, Rome. ITALY Institute of Physical Chemistry, University of Muenster, Corrensstr. 28/30, D 48149 Muenster, GERMANY), G. B. Appetecchi (ENEA), M. Montanino (ENEA, TER Department, Casaccia Research Center), and S. Passerini (University of Muenster)
o	558	The Novel Ionic Transfer Detecting Methodology of Lithium Polymer Battery by Positron Annihilation Studies F. Wang (Industrial Technology Research Institute), Y. Wang, and C. Wan (Nation Tsing-Hua University)
o	559	Study on the Cycling Performances of Lithium-Ion Polymer Cells Assembled by In Situ Chemical Cross-Linking Using a Mixture of Different Cross-Linking Agents J. Choi (Hanyang University), Y. Kang (KRICT), S. Yu (LG Chemical Ltd.), and D. Kim (Hanyang University)
o	560	Epitaxial Thin Film Growth of LiCoO₂ by Pulsed Laser Deposition T. Ohnishi, B. Hang, X. Xu (NIMS), M. Osada, and K. Takada (National Institute for Materials Science)
o	561	Physical and Electrochemical Properties of LiFePO₄/C Composites Synthesized with Various Sizes of Polystyrene Spheres as Carbon Sources G. Fey and H. Tu (National Central Unversity)
o	562	Effects of Moderate Thermal Treatments under Air on LiFePO₄-based Nano Powders S. Hamelet, P. Gibot, M. Casas-Cabanas (LRCS), D. Bonnin (ESPCI), C. P. Grey (Stony Brook University), J. Leriche, M. Courty (LRCS), S. Levasseur (Umicore Research and Development), J. Tarascon, and C. Masquelier (LRCS)
o	563	Li-ion Transport Kinetics in LiV₃O₈ Thin Films Prepared by RF Magnetron Sputtering Q. Shi, R. Hu, and M. Zhu (South China University of Technology)
o	564	A Closer Look at Three-Dimensional Microbatteries D. Golodnitsky, E. Strauss, K. Freedman, H. Mazor, S. Menkin, T. Ripenbein, M. Nathan (Tel Aviv University), and E. Peled (Tel-Aviv University)
o	565	LiFePO₄ Powders: Synthesis and Interface Phenomena J. Martin (IMN-CNRS), N. Dupre (CNRS-IMN), H. Konishi, R. Kanno, A. Yamada (Tokyo Institute of Technology), and D. Guyomard (CNRS-IMN)
o	566	Characterization of Positive Electrode / Electrolyte Interphase in Lithium Batteries N. Dupre (CNRS-IMN), J. Martin (IMN-CNRS), P. Soudan, and D. Guyomard (CNRS-IMN)
o	567	All-Solid-State 3D Microbatteries: A Challenge for Efficient Smart Systems L. Le Van-Jodin, R. Salot, and S. Poulet (CEA)
o	568	Stabilized Lithium Metal Powder (SLMP{trade mark, serif}) - Independent Source of Li for High Energy Li-ion Batteries M. Yakovleva, Y. Li, B. Fitch, and Y. Gao (FMC, Lithium Division)
o	569	Thermal Stability of Ionic Liquids as an Electrolyte for Lithium-Ion Batteries M. Hori, Y. Aoki, S. Maeda, R. Tatsumi, and S. Hayakawa (The Nippon Synthetic Chemical Industry Co., Ltd.)
o	570	Lithium-nickel-manganese-oxide Cathode for Li Battery Prepared by Nanocasting T. Mizuno, T. Kawase, and H. Yoshitake (Yokohama National University)
o	571	In situ XRD Studies of Mixed LiMn₂O_4-LiNi_1/3Co_1/3Mn_1/3O₂ Composite Cathode in Li-ion Cells during Charge-discharge Cycling W. Yoon (Kookmin University), D. Jang (School of Advanced Materials Eng), K. Nam (Brookhaven National Laboratory), S. Choi (LG Chem.), and X. Yang (Brookhaven National Lab.)
o	572	Electrodeposited Copper Sulfide Thin-Film Cathodes for 3D-Microbatteries H. Mazor, D. Golodnitsky (Tel Aviv University), and E. Peled (Tel-Aviv University)
o	573	Thin Film Lithium Battery Using Stable Solid Electrolyte Li₄SiO₄ Fabricated by PLD A. Nakagawa, N. Kuwata, Y. Matsuda, and J. Kawamura (Tohoku University)
o	574	Effect of Molecular Weight in Composite Polymer Electrolyte for All Solid Lithium Polymer Battery M. Ueno, N. Imanishi, A. Hirano, Y. Takeda, and O. Yamamoto (Mie University)
o	575	Spinel LiMn_2-xTi_xO_4-yF_y (0.2<=x<=0.8, 0<=y<=0.2) with Enhanced Cyclability as Cathode Materials for Li-ion Batteries G. He, Y. Li, and Y. Yang (State Key Laboratory for Physical Chemistry of Solid Surfaces)
o	576	Dilation Control of Anode Materials Based on Spherical Natural Graphite for Lithium-Ion Batteries S. Yamada, H. Sato (Mitsubishi Chemical Group Science and Technology Reserch Center, Inc.), M. Ue, T. Kamada, K. Okanishi, and K. Yamaguchi (Mitsubishi Chemical Corporation)
o	577	High Power Electrodeposited Copper Sulfide Thin-Film Cathodes for 3D-Microbatteries H. Mazor, D. Golodnitsky (Tel Aviv University), and E. Peled (Tel-Aviv University)
o	578	Structural Studies of LiMn_0.25Fe_0.75PO₄ as a Cathode Material for Lithium Ion Batteries Y. Chen (National Tsing Hua University), C. Hsu, J. Chen (Industrial Technology Research Institute), J. Yeh, and H. Shih (National Tsing Hua University)
o	579	Phase Behavior, Thermal Stability, and Conductivity of Ionic Liquid-LiTFSI (IM_10RTFSI and PY_1RTFSI) Mixtures Q. Zhou, K. Fitzgerald, E. Paillard, and W. Henderson (North Carolina State University)
o	580	A Multiple-approach Exploratory Research to Improve Lithium Ion Batteries through Conducting Polymers I. Boyano (CIDETEC-IK4), I. Meatza, M. Bengoechea, O. Miguel, and H. Grande (CIDETEC)
o	581	Low Energy of Activation Lithium-ion Conducting Channel L. Scanlon (Air Force Research Laboratory), L. Lucente (University of Dayton Research Institute), M. Lawson (Air Force Research Laboratory), J. Lawson (University of Dayton Research Institute), J. P. Fellner (Air Force Research Laboratory), W. Feld (Wright State University), P. B. Balbuena (Texas A&M University), N. Munichandraiah (Indian Institute of Science, Bangalore, India), and H. Xiao (Air Force Research Laboratory)
o	582	All-solid-state Lithium Batteries Using a Nanoconfined Ionic Liquid Electrolyte J. Ducros, J. Le Bideau (CNRS - IMN), P. Soudan, and D. Guyomard (CNRS-IMN)
o	583	Effects of Oxide Electrolytes Interposed at Oxide Cathode / Sulfide Solid Electrolyte Interface K. Takada, N. Ohta, L. Zhang (National Institute for Materials Science), X. Xu, B. Hang, T. Ohnishi (NIMS), and T. Sasaki (National Institute for Materials Science)
o	584	Interfacial Properties Between LiFePO₄ and Poly(ethylene oxide)-Li(CF₃SO₂)₂N Polymer Electrolyte K. Hanai, K. Kusagawa, N. Imanishi, A. Hirano, Y. Takeda, and O. Yamamoto (Mie University)
o	585	Electrospun PI/PVdF Composite Fibrous Membranes with High Heat Resistance for Lithium Ion Batteries of Electric Vehicles J. Son, S. Jang (Korea Institute of Science and Technology), C. Park, S. Choi (Yonsei University), and S. Jo (Korea Institute of Science and Technology)
o	586	The Influence of Additives on Lithium Dope / Undope Reactions for a Tin Film Electrode in a Room-Temperature Ionic Liquid Electrolyte S. Miyashita, Y. Katayama, T. Miura (Keio University), and S. Komaba (Tokyo University of Science)
o	587	Investigation of the Interface Between LiMn₂O₄ Electrode and Li₂S-P₂S₅ Electrolyte in All-Solid-State Batteries H. Kitaura, A. Hayashi, K. Tadanaga, and M. Tatsumisago (Osaka Prefecture University)
o	588	The Role of Adipic Acid on the Synthesis of LiFePO₄ by Solid-state Approach with High Rate Performance S. Lee, I. Chang, H. Lim, K. Karthikeyan, Y. Lee (Chonnam National University), and W. Kim (Daejung EM)
o	589	Synthesis and Electrochemical Properties of LiMnPO₄ Cathode Materials Obtained by Two Different Methods I. Jang, S. Lee, H. Lim, K. Karthikeyan, and Y. Lee (Chonnam National University)
o	590	Crystalline Halide Substituted Li-Argyrodites as Solid Electrolyte for Lithium-Ion Batteries F. Stadler and C. Fietzek (SANYO Component Europe GmbH)
o	591	Formation of SEI on Temperature Controlled Process for Lithium Ion Batteries F. Wang (Industrial Technology Research Institute), M. Yu, Y. Tsai, Y. Hsiao, C. Lin (National Tsing Hua University), Y. Wang, and C. Wan (Nation Tsing-Hua University)
o	592	Electrochemical Study of SEI of Metallic Li Anode with Improved Cycle Life by Sulfonyl Additives T. Momma, H. Nara, Y. Suzuki, and T. Osaka (Waseda University)
o	593	Cathode Interfacial Design for Solvent-free All Solid-State Lithium-ion Batteries T. Kobayashi, Y. Kobayashi (Central Research Institute of Electric Power Industry), S. Seki, Y. Ohno, Y. Mita (Central Research Institute of Electric Power Industry (CRIEPI)), and H. Miyashiro (Central Research Institute of Electric Power Industry)
o	594	Thin Films for All-solid-state Lithium Microbatteries B. Fleutot, V. Phan, D. Poinot, B. Pecquenard (ICMCB), F. Le Cras (CEA - Commissariat a l'Energie Atomique), A. Levasseur, and C. Delmas (ICMCB)
o	595	Novel Side-chain Rotating Polymer Electrolytes Having an Amide Group in the Main Chain T. Matsuhira and H. Yamamoto (Osaka University)
o	596	Synthesis and Electrochemical Performance of LiFePO₄-Carbon Nanocomposite with Core-Shell Structure Y. Wang, Y. Wang, E. Hosono, Y. Wang, and H. Zhou (National Institute of Advanced Industrial Science and Technology (AIST))
o	597	Synthesis and Electrochemical Properties of Low-barrier Ion Conductive Polymer Electrolytes Having a Thioamide Group N. Iwaguchi, T. Ishibashi, T. Okamura, and H. Yamamoto (Osaka University)
o	598	Carbon-Impregnated Nanoporous LiFePO₄ with Spherical Microscale Particles Having High Volumetric Capacity for Lithium Batteries S. Oh, S. Oh (Hanyang University), K. Amine (Argonne National Laboratory), and Y. Sun (Hanyang University)
o	599	Improved Electrochemical Performances of NH₄AlF₄-coated LiCoO₂ Cathode Material for Lithium Ion Battery H. JE (Hanyang University), J. Prakash (Illinois Institute of Technology), and Y. Sun (Hanyang University)
o	600	Cross-linked, Lithium-conducting Ternary Polymer Electrolytes Containing Ionic Liquids G. Kim (ENEA, TER Department, Casaccia Research Center, Via Anguillarese 301, Rome. ITALY Institute of Physical Chemistry, University of Muenster, Corrensstr. 28/30, D 48149 Muenster, GERMANY), G. B. Appetecchi (ENEA), S. Passerini (University of Muenster), M. Joost (University of Muenster, Institute of Physical Chemistry, Corrensstr. 28/30, D 48149 Muenster, GERMANY), A. Balducci (University of Münster), and M. Winter (Westfaelische Wilhelms University Muenster)
o	601	Design of Resilient Nano-Silicon Anodes B. Zdyrko (Clemson University), A. Magasinski, B. Hertzberg, F. Jones, T. F. Fuller, I. Luzinov, and G. Yushin (Georgia Institute of Technology)

Wednesday, October 7, 2009
Hall E1, Level OE - Yellow
Cathodes 1
Co-Chairs: Nancy Dudney and Karim Zaghib
Time	Abs#	Title and Authors
08:00	602	Olivine-Oxide Nanostructured Materials for Li-ion Batteries K. Zaghib (Hydro-Quebec), P. Charest, M. Dontigny, A. Guerfi, M. Petitclerc, J. Labrecque, and A. Vijh (Hydro-Québec)
08:30	603	Evaluation of Synthesis Routes for Pure and Composite LiMnPO₄ with Carbonaceous Additives for Li-ion Battery S. Kaymaksiz (MPI, ZSW), U. Dettlaff-Weglikowska (Korea University), N. Kaskhedikar (MPI), N. Sato (Toyota Motor Europe, Zaventem, Belgium), J. Maier, and S. Roth (Max-Planck-Institute fur Festkorperforschung)
08:50	604	LiMnPO₄ Cathode Material for High Performance Li-Ion Battery I. Exnar (HPL SA), A. Key (EPFL), G. Degenghi, T. Drezen, and J. Miners (HPL SA)
09:10	605	Hydrothermal Synthesis of Lithium Iron Phosphate Using Fe(III) Precursor H. Zou and P. Shen (Sun Yat-Sen University)
09:30	606	LiMg_xMn_1-xPO₄/C Composite Cathodes for Lithium Batteries Prepared by a Combination of Spray Pyrolysis with Wet Ballmilling Z. Bakenov and I. Taniguchi (Tokyo Institute of Technology)
09:50		Intermission (20 Minutes)
10:10	607	Synthesis, Structural and Electrochemical Properties of LiFePO₄ Nanomaterials Synthesized by Hydrothermal Route K. Zaghib (Hydro-Quebec), F. Brochu, A. Guerfi (IREQ), M. Kopec, A. Mauger, F. Gendron (University Paris 6), and C. M. Julien (Universite P. et M. Curie)
10:30	608	Synthesis, Structural and Electrochemical Properties: LiFePO₄ Molten State K. Zaghib (Hydro-Quebec), J. Labrecque, M. Dontigny, P. Charest, A. Guerfi (IREQ), M. Kopec, A. Mauger, F. Gendron (University Paris 6), and C. M. Julien (Universite P. et M. Curie)
10:50	609	LiMe_xNi_0.5-xMn_1.5O₄ as Promising Cathode Materials for 5 V Li-ion Batteries E. Kachibaia, R. Imnadze, T. Paikidze, and R. Akhvlediani (Instiute of Inorganic Chemistry and Electrochemistry)
11:10	658	Synthesis and Electrochemical Properties of Iron Oxyfluoride Nanocomposites for Lithium Batteries N. Pereira, F. Badway, M. Wartelsky, S. Gunn, and G. Amatucci (Rutgers, The State University of New Jersey)
11:30	611	Electrochemical Properties of LiNi_1/3Mn_1/3Co_1/3O₂ Synthesized by Co-precipitation Method X. Zhang, F. Gendron, A. Mauger (University Paris 6), L. Qi (Peking University), H. Groult, L. Perrigaud (University Paris 6), and C. M. Julien (Universite P. et M. Curie)
11:50	612	High Potential Li-ion Batteries Based on Nanosilicon Composites and LiNi_0.5Mn_1.5O₄ Spinel J. Arrebola, A. Caballero (Universidad de Cordoba), J. Gómez (Universidad de Córdoba), L. Hernan, J. Morales, and L. Sanchez (Universidad de Cordoba)

Cathodes 2
Co-Chairs: Jeff Dahn and Daniel Doughty
Time	Abs#	Title and Authors
14:00	613	Evaluation of Aging of Cathode Material for Li-ion Batteries: LiFePO₄ vs. LiNi_1/3Mn_1/3Co_1/3O₂ M. Kopec (University Paris 6), N. Tran, G. Nuspl, C. Stinner (Süd-Chemie), A. Mauger, F. Gendron (University Paris 6), and C. M. Julien (Universite P. et M. Curie)
14:20	614	Characterization of Li[Ni_0.67Co_0.15Mn_0.18]O₂ with a Concentration Gradient Outer Layer on the Electrochemical Properties and Structural Stability D. Kim, B. Lee (Hanyang University), K. Amine (Argonne National Laboratory (USA)), and Y. Sun (Hanyang University)
14:40	615	Improved Electrochemical Properties of BiOF-coated 5 V Spinel Li[Ni_0.5Mn_1.5]O₄ for Rechargeable Lithium Batteries H. Kang (Hanyang University), S. Myung (Iwate University, Japan), K. Amine (Argonne National Laboratory (USA)), and Y. Sun (Hanyang University, Korea)
15:00	616	Carbon Coated Li₄Ti₅O₁₂ Zero Strain Anodes for High Power Li-ion Battery Applications G. H. Jung, C. Jin, and Y. Sun (Hanyang University)
15:20	617	Electrochemical Properties of Fe₂OF₄ as New Intercalation Host for Li I. D. Gocheva, I. Tanaka, T. Doi, S. Okada, and J. Yamaki (Kyushu University)
15:40		Intermission (20 Minutes)
16:00	618	Advantages of Simultaneous Substitution of Co in Li[Ni_1/3Mn_1/3Co_1/3]O₂ by Ni and Al F. Zhou, X. Zhao, and J. R. Dahn (Dalhousie University)
16:20	619	Intercalation and Conversion Reactions of Perovskite-type Fluoride Cathodes S. Okada, Y. Tanaka, I. D. Gocheva, I. Tanaka, T. Doi, J. Yamaki (Kyushu University), M. Takeo, and T. Nishida (Kinki University)
16:40	620	Fabrication of Li₄Ti₅O₁₂ and LiCoO₂ Thin Films as Electrode Materials by Spray Pyrolysis Method M. Takahashi, J. Tani, H. Kido (Osaka Municipal Technical Research Institute), A. Hayashi, Y. Kinoshita, and M. Tatsumisago (Osaka Prefecture University)
17:00	621	Synthesis of Meso-structured LiMn₂O₄/CNT Nanocomposites for Energy Storage Applications C. Lee and K. Kim (Yonsei University)
17:20	622	Depth Profiling of the SEI on LiFePO₄ and LiMnPO₄ S. Malmgren, H. Rensmo (Uppsala University), T. Gustafsson (Uppsala University, Sweden), M. Gorgoi (Helmholtz-Zentrum Berlin für Materialien und Energie), and K. Edström (Uppsala University)
17:40	623	Preparation and Characterization of LiMnPO₄/SWNT Composites as Cathode Material for Li-ion Battery U. Dettlaff-Weglikowska (Korea University), N. Sato (Toyota Motor Europe, Zaventem, Belgium), and S. Roth (Max-Planck-Institute fur Festkorperforschung)

Gallery, Level 01 - Green
Poster Session - Rechargeable Lithium and Li-ion Batteries 2
Co-Chairs: Zempachi Ogumi and Karim Zaghib
Time	Abs#	Title and Authors
o	624	Postmortem Analysis of SEI Components in Industrial Lithium-Ion Cells for Determination of Aging Effects H. Kren, R. Hohl, M. Sternad, S. Koller, and F. Stelzer (Graz University of Technology)
o	625	Lithium-ion Intercalation/Deintercalation Properties of a High Potential Negative Electrode TiO₂(B) Y. Murota, Y. Oba, M. Takagi, A. Tasaka, and M. Inaba (Doshisha University)
o	626	Electron Diffraction of Li-conducting Perovskites with Both Tilting of BX₆ Octahedra and Layered Ordering of A-cations K. Kishida, K. Goto, H. Inui, and Z. Ogumi (Kyoto University)
o	627	Synthesis and Electrochemical Properties of Co-substituted Hollandite-type Manganese Oxides Using a Hydrothermal Method Y. Kadoma (Iwate University), N. Higuchi (Faculty of Engineering, Department of Applied Chemistry, Iwate University), T. Akahira, R. Kimura, K. Ui, and N. Kumagai (Department of Frontier Materials and Functional Engineering, Iwate University)
o	628	Thermal Stability of Metal Fluorides as Positive Electrodes for Lithium-ion Batteries M. Zhou, L. Zhao, T. Doi, S. Okada, and J. Yamaki (Kyushu University)
o	629	Comparison of Al and Mg Substitution Effect on the Thermal Performance of Positive Electrode Materials F. Zhou, W. Luo, X. Zhao, and D. Jeff (Dalhousie University)
o	630	Gel Polymer Electrolyte Based on Cross-linked Poly(vinylpyridine-co-styrene) for Lithium-ion Polymer Batteries Y. Kang, S. Oh, D. Kim (KRICT), M. Lee (Chonbuk National University), and C. Lee (KRICT)
o	631	LiMn_1.5-xNi_0.5Cr_xO₄ (0 {less than or equal to} x {less than or equal to} 0.1) Cathode Materials for High Energy Density and High Rate Capability Li Ion Rechargeable Batteries R. Singhal, R. Katiyar, K. Asmar, and R. Katiyar (University of Puerto Rico)
o	632	Three-Dimensionally Ordered Structures for Inhibition of Dendrite Formation on Lithium Metal Electrode H. Munakata, Y. Yamamoto, K. Sasajima, M. Kijima, D. Yamamoto, S. Woo, and K. Kanamura (Tokyo Metropolitan University)
o	633	Metal Coating as an Effective Method for Improved Electrochemical Performances of Anatase Electrodes M. Mancini (Camerino University), P. Kubiak (ZSW), R. Marassi (Camerino University), and M. Wohlfahrt-Mehrens (ZSW - Center for Solar Energy and Hydrogen Research)
o	634	Shape-Controlled Silicon Particles for High-Capacity Negative Electrode of Li-Ion Batteries K. Nakai, I. Tsutioka, M. Saito, A. Tasaka (Doshisha University), T. Takenaka (Oike and Co.,Ltd), M. Hirota, A. Kamei (Oike Co., Ltd.), and M. Inaba (Doshisha University)
o	635	Properties of PVdF/HFP Inorganic Filler Modified Gel Electrolytes A. Zalewska, K. Piotrowska, J. S. Syzdek, L. Niedzicki, and M. Marcinek (Warsaw University of Technology)
o	636	Self-Assembly Between LiFePO₄ and Carbon Black during Electrode Processing for High Power Li-Ion Battery W. Porcher, S. Jouanneau (CEA), B. Lestriez, and D. Guyomard (CNRS-IMN)
o	637	Thin Electrolytes from Self-Assembly of Polyetheramine Oligomers on LiFePO₄ Cathode Particles C. Sisbandini, D. Brandell (Uppsala University), T. Gustafsson (Angstrom Laboratory, Uppsala University), and L. Nyholm (Uppsala University)
o	638	Kinetics of Lithium Nickel Cobalt Oxide Electrode Material for Lithium-Ion Batteries B. Ravdel (Yardney Technical Products, Inc) and F. Puglia (Yardney Technical Products, Inc.)
o	639	The Influence of Fluorinated Aromatic Isocyanates on the Cycling Performance of Silicon Anodes in Lithium-Ion Batteries M. Sternad, H. Kren, R. Hohl, C. Bayer, C. God, C. Stangl, B. Fuchsbichler, S. Koller, M. Schmuck (Graz University of Technology), M. Takehara (Mitsubishi Chemical Group Science and Technology Research Center), M. Ue (Mitsubishi Chemical Corporation), and M. Winter (Westfaelische Wilhelms University Muenster)
o	640	Thermodynamics of Electrode Materials for Lithium-Ion Batteries B. Ravdel, S. Trebukhova (Yardney Technical Products, Inc), and F. Puglia (Yardney Technical Products, Inc.)
o	641	Gel Electrolyte for High Energy Density Li Ion Rechargeable Batteries R. Singhal, M. Rivera, V. Dolidze, F. Aliev, and R. Katiyar (University of Puerto Rico)
o	642	Thermal Behavior of Carbon-coated Anode Observed in In-situ Transmission Electron Microscopy T. Ahn (Seoul National University), J. Cho (Ulsan National Institute of Science and Technology), and Y. Kim (Seoul National University)
o	643	Partial Crystallization of Amorphous Carbon Layer Coated on the Surface of LiFePO₄ by Heat Treatment Using Microwave Induced Arc J. Jegal and K. Kim (Yonsei University)
o	644	Thermal Stability of Delithiated Al-substituted Li(Ni_1/3Co_1/3Mn_1/3)O₂ Cathodes C. T. Love (US Naval Research Laboratory), M. Johannes, and K. Swider-Lyons (Naval Research Laboratory)
o	645	Influence of Electrode Preparation Conditions on the Electrochemical Performance of Cathodes in Li-Ion Batteries H. Y. Tran (ZSW - Center for Solar Energy and Hydrogen Research, ZSW), W. Haselrieder, M. Mueller (TU Braunschweig, Institute of particle technology), C. Taeubert, M. Wohlfahrt-Mehrens (ZSW - Center for Solar Energy and Hydrogen Research), and A. Kwade (TU Braunschweig, Institute of particle technology)
o	646	Electrodeposition of Polymer Electrolyte Coated MnO₂ for 3D Microbatteries P. Johns (Southampton University), G. El-Enany (Suez Canal University), and J. Owen (University of Southampton)
o	647	Thermal and Electrochemical Behaviour of Different Cathode Materials for Lithium-Ion Batteries C. Taeubert (ZSW - Center for Solar Energy and Hydrogen Research), M. Fleischhammer (ZSW), P. Axmann (Center for Solar Energy and Hydrogen Research Ulm), and M. Wohlfahrt-Mehrens (ZSW - Center for Solar Energy and Hydrogen Research)
o	648	Synthesis of Water Scavering Compounds Based on Functionalization of Methylalumoxane by Organic Compounds Containing Free Hydroxyl Group for Application in Battery Electrolytes M. Marczewski, M. Piszcz, A. Plewa-Marczewska, and M. Siekierski (Warsaw University of Technology)
o	649	Estimation of Complex Formation Constants of Supramolecular Additive - Low Molecular Weight Analogs of PEO and Supramolecular Additive - Anion by NMR Spectroscopy A. Plewa-Marczewska (Warsaw University of Technology), M. Kalita (Warsow University of Technology), and M. Siekierski (Warsaw University of Technology)
o	650	Lithium Plating and Lithium Intercalation Kinetics as a Function of Electrolyte Composition R. V. Bugga (Jet Propulsion Laboratory) and M. C. Smart (Jet Propulsion Laboratory, California Institute of Technology)
o	652	Comparison of Morphology, Particle Size, and Coating on Cycling Performance of Si Based Anodes for Li-ion Batteries S. Urbonaite, I. Baglien, and K. Edström (Uppsala University)
o	653	Interfacial Structure and Interfacial Resistance of EC:DMC/LiPF₆ and Ionic Liquid Electrolytes at Graphite and LiFePO₄ O. Borodin and G. Smith (University of Utah)
o	654	Direct In-Situ Measurements of Li Transport in Li-ion Battery Negative Electrodes S. Harris (Private), A. Timmons (GM), S. Kim, and C. Monroe (University of Michigan)
o	655	On Reasons for Capacity Fade of Lithium-sulfur Cells during Cycling V. Kolosnitsyn, E. Kuzmina, E. Karaseva, and L. Sheina (Institute of Organic Chemistry Ufa Scientific Center Russian Academy of Sciences)
o	656	Field Effects on Bulk and Interfacial Behavior of Electrolytes in Li-ion Cells K. L. Gering (Idaho National Laboratory)
o	657	Silicon-Decorated Carbon Nanotube Arrays as High Capacity Anodes for Lithium Ion Batteries K. Evanoff, B. Hertzberg, T. F. Fuller (Georgia Institute of Technology), W. Ready (Georgia Institue of Technology, Georgia Tech Research Institute), and G. Yushin (Georgia Institute of Technology)
o	659	Carbon Coated Li-Mn-oxide Nanorods as High Rate Electrode Materials for Lithium Ion Batteries K. Kim and K. Kim (Yonsei University)
o	660	Ionic Liquids in Polymer Electrolytes for Lithium Batteries C. Hupbauer (Fraunhofer Institut Chemische Technologie) and J. Tübke (Fraunhofer Institute for Chemical Technology ICT)
o	661	Low-Molecular-Weight PEG-Modified RTILs as Electrolytes for Rechargeable Lithium Batteries O. E. Geiculescu, R. Rajagopal (Clemson University), P. Hallac (Lion Cells), S. Creager, and D. DesMarteau (Clemson University)
o	662	Effect of Additives to Electrolyte and Electrodes for Increasing Efficiency of Li-Ion Batteries E. Shembel, I. Maksuta, V. Redko (Enerize Corporation), D. Meshri (Advance Research Chemical), L. Neduzko, V. Maslov, and V. Pisny (Enerize Corporation)
o	663	New Binder Materials for Si Electrode G. Liu (Lawrence Berkeley Lab), S. Xun, H. Zheng, X. Song, and V. Battaglia (LBNL)
o	664	Effect of Organic Additives on Electrochemical Properties of Li Anode in Room Temperature Ionic Liquid H. Sano, H. Sakaebe (National Institute of Advanced Industrial Science and Technology (AIST)), and H. Matsumoto (National Institute of Advanced Industrial Science and Technology)
o	665	Synthesis and Evaluation of the Side-chain Structure of Novel Low-barrier Ion Conductive Solid Polymer Electrolytes I. Fukuchi, H. Yamamoto, T. Ishibashi, T. Matsuhira, N. Iwaguchi, and T. Okamura (Osaka University)
o	666	High Energy Density Metal Oxide Anodes for Li-ion Batteries C. Ban, L. Riley, Z. Wu (NREL), D. T. Gillaspie (National Renewable Energy Laboratory), S. Lee (University of Colorado), and A. Dillon (NREL)
o	667	Phase Transition Pathways of Nanoscale Olivines during Dynamic Electrochemical Cycling M. Tang (Lawrence Livermore National Laboratory), Y. Kao, N. Meethong, W. Carter, and Y. Chiang (Massachusetts Institute of Technology)
o	668	Electrochemical and Thermal Behavior of Metal Electrode in Room Temperature Ionic Liquids with Asymmetric Cations H. Sakaebe (National Institute of Advanced Industrial Science and Technology (AIST)), H. Matsumoto (National Institute of Advanced Industrial Science and Technology), S. Tsudzuki (National Institute of Advanced Industrial Science and Technology (AIST)), and K. Tatsumi (National Institute of Advanced Industrial Science and Technology)
o	669	Charge Transfer Resistance on Lithium in Ionic Liquids Composed of Fluorosulfonyl-(trifluoromethylsulfonyl)amide for Lithium Battery Electrolyte H. Matsumoto, S. Tsuzuki, T. Umecky (National Institute of Advanced Industrial Science and Technology), H. Sakaebe (National Institute of Advanced Industrial Science and Technology (AIST)), and K. Tatsumi (National Institute of Advanced Industrial Science and Technology)
o	670	Optimum Binder for High Capacity SiO Anode S. Komaba, K. Shimomura, T. Ozeki, K. Konno, and H. Yui (Tokyo University of Science)
o	671	Compatibility of Electrolytes Based on BMPl-TFSI with Graphite Anodes for Li-Ion Batteries M. Reichert, M. Wachtler (ZSW - Zentrum für Sonnenenergie- und Wasserstoff-Forschung Baden-Württemberg), P. Kurzweil (University of Applied Sciences Amberg-Weiden, Fakultät Maschinenbau/Umwelttechnik), and M. Wohlfahrt-Mehrens (ZSW - Center for Solar Energy and Hydrogen Research)
o	672	Influence of the Blocks Length and Formulation on Conductivity of Triblock Copolymer as Solid Electrolytes for Lithium Batteries M. Robinet (Laboratoire Chimie Provence), R. Bouchet (LCP-Université de Provence), T. Phan, and D. Bertin (Laboratoire Chimie Provence)
o	673	POE Containing Homogeneous Dispersion of Rigid Organic Nodules as SPE for Lithium Batteries R. Bouchet (LCP-Université de Provence), T. Phan, M. Robinet, and D. Bertin (Laboratoire Chimie Provence)
o	674	Hybrid, Nanoarchitectured Tin Anodes for Lithium Ion Batteries P. Meduri, C. Pendyala, V. Kumar, G. Sumanasekera, and M. Sunkara (The University of Louisville)
o	675	High Voltage Lithium Ion Batteries Based on Carbon/LiMPO₄ (M = Mn, Co, Ni) Composites J. Morales (Universidad de Cordoba), R. Trócoli (University of Cordoba), R. Saint-Martin, S. Franger (University Paris XI), and J. Santos Pena (University of Cordoba)
o	676	Electrochemical Properties of xLiMnO₃•(1-x)LiMn_0.33 Co_0.33Ni_0.33O₂ Cathode Materials Prepared by Co-precipitation J. Jeong, K. Ha, B. Jin, and H. Kim (Korea Electrotechnology Research Institute)
o	677	Microstructured Porous Silicon/Carbon Composite Anode Materials for Lithium-ion Batteries Y. Yen, C. Lin (National Taiwan University), H. Wu (Industrial Technology Research Institute), and N. Wu (National Taiwan University)
o	678	A New Methodology for Evaluating the High-Power Behavior of a Li-ion Battery Cell A. Nyman (Royal Institute of Technology), T. G. Zavalis (Royal Institute of Technology, KTH), R. Elger (Swerea), M. Behm, and G. Lindbergh (Royal Institute of Technology)
o	679	Comparative Study of Electrolyte Reactions at the Surface of High Voltage Manganese Spinel, Phosphate, and Metal Oxide Cathodes in Li-ion Cells B. Deveney, K. Nechev (SAFTAMERICA), J. Peres (SAFT), and A. J. Salkind (Rutgers University)
o	610	Electrochemical Properties of Mixed Cathode Consisting of μ-Scale LiCoO₂ and nm-Scale Li[Co_0.1Ni_0.15Li_0.2Mn_0.55]O₂ K. Kim (ETRI), S. Kim (Kyungwon University), Y. Lee, and J. Kim (ETRI)
o	711	Kinetics of Li Ion Transfer at Interface Between Cathode Active Material and Electrolyte I. Takahashi, K. Sasaki, and T. Terai (The University of Tokyo)

Thursday, October 8, 2009
Hall E1, Level OE - Yellow
New Battery Materials and Systems
Co-Chairs: Bruno Scrosati and Ratnakumar Bugga
Time	Abs#	Title and Authors
08:00	680	Dow Energy Storage Solutions: Innovative Materials for Advanced Lithium Ion Batteries J. L. Cohen, S. Tang, H. Fowler, D. Brune, T. Gregory, S. Montgomery, T. Kuo, M. Newsham, R. Mehta, J. Waeterloos, M. Warnecke, and D. Strand (The Dow Chemical Company)
08:20	681	All-solid-state 3D Microbatteries: A Challenge for Efficient Smart Systems L. Le Van-Jodin, R. Salot, and S. Poulet (CEA)
08:40	682	Composite Intermetallic Anodes with 3-D Architectures Made by Electrodeposition L. Trahey, J. Vaughey, and M. Thackeray (Argonne National Laboratory)
09:00	683	Long-term Cycling Stability of LFP Composite Electrodes with Fluorine-free, Aqueous Processable Binder S. F. Lux (Westfälische Wilhelms Universität), A. Balducci (University of Münster), F. M. Schappacher (Westfälische Wilhelms Universität), S. Passerini (University of Muenster), and M. Winter (Westfaelische Wilhelms University Muenster)
09:20	684	Advanced Carbon Anode for Na-Ion Batteries S. Komaba, W. Murata, and T. Ozeki (Tokyo University of Science)
09:40		Intermission (20 Minutes)
10:00	685	Beyond Intercalation toward the Lithium-Air Battery L. J. Hardwick, S. Freunberger (University of St Andrews), Z. Peng (School of Chemistry, University of St Andrews), J. Bao, A. Paterson, and P. Bruce (University of St Andrews)
10:20	686	Solvent and Conducting Salt Effects on the Oxygen Reduction Mechanism in Nonaqueous Lithium Air Batteries K. M. Abraham, C. Olaoire, and S. Mukerjee (Northeastern University)
10:40	687	Lithium-Air Rechargeable Batteries Using MnO₂-Carbon Based Air Electrode A. K. Thapa, S. Kazuki, H. Matsumoto, and T. Ishihara (Kyushu University)
11:00	688	Lithium Batteries with Aqueous Electrolytes R. A. Huggins (Stanford University)
11:20	689	A New Cathode Material for Li-ion Batteries with the Possibility of Extracting Two Li-ions per TM-atom M. Kuezma (National Institute of Chemistry Slovenia), D. Ensling (Materials Chemistry Department, Angstrom Laboratory, Uppsala University), R. Dominko (National Institute of Chemistry Slovenia), J. Jamnik (Materials Electrochemistry Department, National Institute of Chemistry Ljubljana), T. Gustafsson (Angstrom Laboratory, Uppsala University), J. Thomas (Materials Chemistry Department, Angstrom Laboratory, Uppsala University), and M. Gaberscek (National Institute of Chemistry Slovenia)
11:40	690	New Types of Lithium Ion Batteries B. Scrosati (University of Rome, La Sapienza)
12:00	691	Inkjet Printed Li₄Ti₅O₁₂ Electrode for Recharegable Lithium Thin Film Battery H. Kim, J. Choi, M. Kwon, M. Song, Y. Park, and S. Doo (Samsung Advanced Institute of Technology)

High Power Materials and Batteries
Co-Chairs: George Blomgren and Arumugam Manthiram
Time	Abs#	Title and Authors
14:00	692	What Does Electrode Particle Size Have to Do with High Power Lithium-Ion Batteries? K. M. Abraham (Northeastern University)
14:30	693	Towards High Rate Performance Li Ion Electrodes: Suppression of Active Particle Size B. Erjavec, R. Dominko, J. Come, A. Pintar, and M. Gaberscek (National Institute of Chemistry Slovenia)
14:50	694	A New System of High Specific Power Lithium Ion Cell H. Xu (Shanghai Institute of Space Power Sources), H. Cao (Shanghai Institute of Space Power-sources), Z. An, E. Yang, and Y. Pan (Shanghai Institute of Space Power Sources)
15:10	695	Performance Demonstration of MCMB-LiNiCoO₂ Cells Containing Electrolytes Designed for Wide Operating Temperature Range M. C. Smart (Jet Propulsion Laboratory, California Institute of Technology), R. V. Bugga (Jet Propulsion Laboratory), L. Whitcanack, K. Smith (Jet Propulsion Laboratory, California Institute of Technology), S. Santee, F. Puglia, and R. Gitzendanner (Yardney Technical Products, Inc.)
15:30	696	Cathode Materials for High Rate Lithium Ion Batteries D. Ghantous (Imara Corp), O. Mao (Imara Corp.), O. Chang, P. Hallac (Imara Corp), and G. E. Blomgren (Imara Corp.)
15:50		Intermission (20 Minutes)
16:10	697	High Capacity Double-Layer Surface Modified Layered Li[Li_0.2Mn_0.54Ni_0.13Co_0.13]O₂ Cathode with Improved Rate Capability A. Manthiram, Q. Wang, J. Liu, and J. Gao (University of Texas at Austin)
16:30	698	Understanding Study of Power Limitations at Low Temperature of LiFePO₄ J. Breger, D. Sotta, O. Falchetti, O. Jan, F. Castaing, and C. Tessier (Saft)
16:50	699	High Power Evaluation for LiFePO₄ / SiO Cell Using Current-Rest-Method T. Miyuki (National Institute of Advanced Industrial Science and Technology (AIST)), A. Kojima (Kobe University), Y. Okumura (National Institute of Advanced Industrial Science and Technology (AIST)), T. Kojima, and T. Sakai (National Institute of Advanced Industrial Science and Technology)
17:10	700	Chemical and Physical Characteristics of Lithium Manganese Nickel Spinel,and Its Performance as a Cathode Material B. Ravdel, S. Trebukhova (Yardney Technical Products, Inc), and F. Puglia (Yardney Technical Products, Inc.)
17:30	701	New Electrode Design for Ultrahigh Energy Density Rechargeable Batteries C. Erdonmez, W. Lai, and Y. Chiang (Massachusetts Institute of Technology)

Friday, October 9, 2009
Hall E1, Level OE - Yellow
Cell and Battery Characterization
Co-Chairs: John Erbacher and Robert Huggins
Time	Abs#	Title and Authors
08:00	702	AC Impedance Analysis of High-Power Lithium-ion Secondary Batteries S. Seki, N. Kihira, Y. Mita, Y. Ohno, K. Takei, T. Ikeya, H. Miyashiro, and N. Terada (Central Research Institute of Electric Power Industry (CRIEPI))
08:20	703	In-situ and ex-situ ⁷Li Solid State NMR Studies on Lithium Symmetrical Cells with Ionic Liquid Electrolytes B. Key, R. Bhattacharyya, C. P. Grey (Stony Brook University), A. Best, G. Lane (CSIRO Energy Technology), and T. Hollenkamp (CSIRO Division of Energy Technology)
08:40	704	A Mathematical Model for All Solid-State Lithium Ion Batteries K. Becker-Steinberger (Institute of Numerical Mathematics, University of Ulm), S. Funken (Institute for Numerical Mathematics, University of Ulm), M. Landstorfer (University of Ulm), and K. Urban (Institute for Numerical Mathematics, University of Ulm)
09:00	705	Storage Characteristics of Lithium-Ion Cells R. V. Bugga (Jet Propulsion Laboratory), M. C. Smart, and L. Whitcanack (Jet Propulsion Laboratory, California Institute of Technology)
09:20	706	Parallel Cell/Battery Influence on Ultra Low Temperature Battery Performance J. K. Erbacher, G. Loeber (Air Force Research Laboratory), and C. Riepenhoff (University of Dayton Research Institute)
09:40		Intermission (20 Minutes)
10:00	707	Thermal Analysis of Positive Electrodes of Lithium-ion Batteries Y. Saito (National Institute of Advanced Industrial Science and Technology), H. Nitani (High Energy Accelerator Research Organization), and M. Shikano (National Institute of Advanced Industrial Science and Technology)
10:20	708	Neutron Depth Profiling for In Situ Lithium Analyses in All-solid-state Thin-film Microbatteries J. Oudenhoven (Eindhoven University of Technology), F. Labohm (Reactor Institute Delft), R. Niessen (Philips Research Laboratories Eindhoven), F. Mulder (Delft University of Technology), and P. Notten (Eindhoven University of Technology)
10:40	709	Use of Equivalent Circuits and Modified Ragone Plots for Lithium-Ion Battery Performance Prediction J. P. Fellner, G. Loeber (Air Force Research Laboratory), B. Kumar, J. Thokchom, and C. Riepenhoff (University of Dayton Research Institute)
11:00	710	Evolved Gas Analysis of Lithium-ion Battery by Mass Spectroscopy S. Koike (AIST), M. Shikano (National Institute of Advanced Industrial Science and Technology), H. Sakaebe (National Institute of Advanced Industrial Science and Technology (AIST)), and K. Tatsumi (National Institute of Advanced Industrial Science and Technology)
11:20	651	In-situ and Ex-situ Solid State NMR and Pair Distribution Function Studies to Investigate the Local Structure of the Amorphous Phase(s) in Silicon Anodes B. Key, R. Bhattacharyya (Stony Brook University), M. Morcrette (LRCS), V. Seznec (Universite de Picardie Jules Verne), J. Tarascon (LRCS), and C. P. Grey (Stony Brook University)
11:40	712	Electrochemical and Magnetic Study on the Regeneration of a Completely Air-oxidized LiFePO₄/C Composite V. Palomares (Universidad del País Vasco (UPV/EHU)), A. Goñi (Universidad del Páis Vasco (UPV/EHU)), M. Bengoechea (CIDETEC), I. De Meatza (CIDETEC-IK4), O. Miguel (CIDETEC), L. Lezama (Universidad del País Vasco (UPV/EHU)), and T. Rojo (Universidad del País Vasco)

Performance and Life Evaluations
Co-Chairs: Joseph Fellner and Binod Kumar
Time	Abs#	Title and Authors
14:00	713	Differential Scanning Calorimetry and Thermogravimetry with In-situ Online Mass Spectrometry Studies on Lithium Iron Phosphate Cathodes and Carbon Anodes R. Hohl, H. Kren, O. Fruhwirth, B. Fuchsbichler, M. Schmuck, S. Koller, and M. Sternad (Graz University of Technology)
14:20	714	Understand Cell Variations in Commercial Li-ion Battery Pack and Packaging M. Dubarry and B. Liaw (University of Hawaii)
14:40	715	A Study on the Cause of Deterioration in Float-charged Lithium-ion Battery T. Tsujikawa, K. Yabuta, T. Matsushita (NTT Facilities, Inc.), M. Arakawa (NTT Facilities Research Institute Inc.), and K. Hayashi (Shin-Kobe Electric Machinery Co., Ltd.)
15:00	716	Characterization and Improvement of Power Performance of Lithium-Ion Batteries at Low Operating Temperatures H. Cho and H. Shin (Pusan National University)
15:20	717	All Solid-state Lithium-sulfur Battery Using Meso-sized Electrode Structure R. Kanno, M. Nagao, Y. Imade, K. Homma, Y. Yamakawa, R. Watanabe, T. Yokoi, and T. Tatsumi (Tokyo Institute of Technology)
15:40		Intermission (20 Minutes)
16:00	718	Fast Synthesized LiFePO₄/C Cathode Material for High Power Application in Lithium-ion Battery for HEV C. Arbizzani, S. Beninati, L. Damen, and M. Mastragostino (University of Bologna)
16:20	719	Alternative Binder Systems for Lithium Ion Batteries C. Stangl, C. Bayer, C. God, B. Fuchsbichler, H. Kren, M. Sternad, R. Hohl, and S. Koller (Graz University of Technology)
16:40	720	Modeling Capacity Fade of Lithium-ion Batteries: Challenges in Identifying and Quantifying Possible Mechanisms V. Ramadesigan, V. Boovaragavan, R. Methekar (Tennessee Technological University), V. R. Subramanian (Washington University), K. Chen, and R. D. Braatz (Illinois Institute of Technology)
17:00	721	Understanding Electronic Resistances in Cathodes for High-Rate Applications I. V. Thorat, T. Joshi, J. Harb, and D. R. Wheeler (Brigham Young University)

216th ECS Meeting - Vienna, Austria

October 4 - October 9, 2009

PROGRAM INFORMATION

B5 - Rechargeable Lithium Ion Batteries

Battery

Monday, October 5, 2009

Hall E1, Level OE - Yellow

Electrolytes 1

Electrolytes 2

Tuesday, October 6, 2009

Hall E1, Level OE - Yellow

Anodes 1

Anodes 2

Gallery, Level 01 - Green

Poster Session - Rechargeable Lithium and Li-ion Batteries 1

Wednesday, October 7, 2009

Hall E1, Level OE - Yellow

Cathodes 1

Cathodes 2

Gallery, Level 01 - Green

Poster Session - Rechargeable Lithium and Li-ion Batteries 2

Thursday, October 8, 2009

Hall E1, Level OE - Yellow

New Battery Materials and Systems

High Power Materials and Batteries

Friday, October 9, 2009

Hall E1, Level OE - Yellow

Cell and Battery Characterization

Performance and Life Evaluations