216th ECS Meeting - Vienna, Austria

October 4 - October 9, 2009

PROGRAM INFORMATION
 

B4 - Intercalation Compounds for Lithium Batteries

Battery/Energy Technology
 

Monday, October 5, 2009

Hall E2, Level OE - Yellow

Nanomaterials

Co-Chairs: M. S. Whittingham and M. Thackeray
TimeAbs#Title and Authors
09:00   389   Nanocrystalline High Power Lithium Ion Batteries M. Graetzel (Ecole Polytechnique Federale de Lausanne)
09:40   390   Enhanced Capacity from Non-stoichiometric Lithium Iron Silicate, Li2-2xFe1+xSiO4 K. Kam, A. Liivat (Angstrom Laboratory, Uppsala University), D. Ensling (Materials Chemistry Department, Angstrom Laboratory, Uppsala University), T. Gustafsson (Angstrom Laboratory, Uppsala University), and J. Thomas (Materials Chemistry Department, Angstrom Laboratory, Uppsala University)
10:00   391   Li2FeSiO4 Based Cathode Materials Synthesized by Molten Carbonate Method for Lithium-Ion Battery A. Kojima (Kobe University), T. Kojima (National Institute of Advanced Industrial Science and Technology), T. Miyuki, Y. Okumura (National Institute of Advanced Industrial Science and Technology (AIST)), and T. Sakai (National Institute of Advanced Industrial Science and Technology)
10:20   392   Polymorphism and Disorder in Li2MSiO4(M = Fe, Mn) A. Yamada and S. Nishimura (The University of Tokyo)
10:40   393   Solid Solution Behavior in LixMnPO4 G. Chen and T. J. Richardson (Lawrence Berkeley National Laboratory)
11:00   394   Electrochemical and Structural Characterization of Olivine LiFePO4 with Varying Particle Morphologies Z. Lu (City University of Hong Kong), H. Chen, Y. Zhu (Stony Brook University), Y. Wang, J. Deng, J. Chung (City University of Hong Kong), and C. P. Grey (Stony Brook University)
11:20   395   Three Dimensional Ordered Mesoporous Materials as High-Rate Electrode for Li-Ion Batteries Y. Ren, F. Jiao, J. Bao, and P. Bruce (University of St Andrews)
11:40   396   Property of the Large Capacity Positive Electrode by Single Crystalline LiMn2O4 Nanowires E. Hosono, T. Kudo, I. Honma, H. Matsuda, Y. Saito, and H. Zhou (National Institute of Advanced Industrial Science and Technology)
 

Polyanion Materials

Co-Chairs: K. M. Abraham and R. Kostecki
TimeAbs#Title and Authors
14:00   397   Effect of Substitution and Solid Solution Behavior in Lithium Metal Polyanion Materials for Li-Ion Battery Cathodes S. Badi, T. Ramesh, B. Ellis, K. Lee, and L. F. Nazar (University of Waterloo)
14:40   398   Comparative Study of Lithium Transport Kinetics in Olivine Cathodes N. Meethong, Y. Kao, and Y. Chiang (Massachusetts Institute of Technology)
15:00 Intermission (20 Minutes)
15:20   399   Olivine-Phosphates: Atomic-Scale Insight into Lithium Transport, Defect Clustering and Crystal Morphologies M. Islam (University of Bath)
16:00   400   Ionothermal Synthesis and Electrochemical Characterization of Nanostructured Lithium Manganese Phosphates P. Barpanda, N. Recham, M. Armand (University of Picardie Jules Verne), and J. Tarascon (LRCS)
16:20   401   Dynamic Reduction of Crystallinity in LiFePO4 During Fast Cycling R. Eriksson (Uppsala University), T. Gustafsson (Angstrom Laboratory, Uppsala University), and K. Edström (Uppsala University)
16:40   402   Novel Lithium Ion Vanadium Phosphate Based Cathode Materials for HEV/PHEV Applications B. N. Hult, C. Allen, and S. Mukerjee (Northeastern University)
17:00   403   Predicting Active Material Utilization in LiFePO4 Electrodes: An Exercise in Multiscale Mathematical Modeling T. W. Farrell and S. Dargaville (Queensland University of Technology)
17:20   404   Defect Model for LiFePO4 Based on Single Crystal Studies J. Maier and W. Katja (MPI for Solid State Research)
 

Tuesday, October 6, 2009

Hall E2, Level OE - Yellow

Layered Oxides

Co-Chairs: P. G. Bruce and R. Palacin
TimeAbs#Title and Authors
08:00   405   Size Effects in Li4+xTi5O12 Spinel M. Wagemaker, W. Borghols, U. Lafont, E. Kelder, and F. Mulder (Delft University of Technology)
08:40   406   Optimization of Li1+x(Ni1/2-yMn1/2-yCo2y)1-xO2 - Type Materials as Positive Electrodes for Lithium-ion Batteries L. Croguennec, J. Bains, M. Ménétrier (ICMCB - CNRS), and C. Delmas (ICMCB)
09:20   407   Synthesis and Characterization of LiNi1-xMnxO2(x = 0.3, 0.5, 0.7) D. Mohanty (Advanced Materials Research Institute), P. Paudel (Advanced Materials Research Institute, University of New Orleans), and H. Gabrisch (University of New Orleans)
09:40 Intermission (20 Minutes)
10:00   408   Dependence of Thermodynamic Stability, Crystal and Electronic Structures, and Cathode Performance on Li Content of LixMn0.5Ni0.5O2 as a Cathode Active Material for Li-Ion Batteries Y. Idemoto, T. Hasegawa, and N. Kitamura (Tokyo University of Science)
10:20   409   Phase Stability and Delithiation Mechanism in High Voltage Li-Excess Oxides for Lithium Batteries: A Combined Electron Microscopy and First Principles Study C. Fell, B. Xu, and S. Meng (University of Florida)
10:40   410   Synthesis, Characterization and Thermal Stability Studies of Al-doped Positive Electrode Materials for Li-ion Batteries A. Rowe and J. R. Dahn (Dalhousie University)
11:00   411   Origin of the Anomalous Rechargeable Capacity of the Li2MnO3-LiCo1/3Ni1/3Mn1/3O2 Electrode Materials N. Yabuuchi, K. Yoshii, Y. Abe, I. Nakai, and S. Komaba (Tokyo University of Science)
11:20   412   Improved Rate Capability of High-Capacity xLi2MnO3•(1-x)LiMO2 Electrodes by Li-Ni-PO4 Surface Treatment S. Kang, C. Lopez, M. Thackeray (Argonne National Laboratory), D. Shin, and C. Wolverton (Northwestern University)
11:40   413   Lithium Nickel Manganese Oxides for Advanced Lithium-ion Batteries T. Ohzuku and K. Ariyoshi (Osaka City Univeristy)
 

Metallics

Co-Chairs: G. Amatucci and L. Nazar
TimeAbs#Title and Authors
14:00   414   In and Ex situ NMR: Application to Silicon, LiCoO 2 Nanoparticles, Li Metal and Conversion Reactions B. Key, R. Bhattacharyya, H. Chen, M. Jiang, D. Zeng, and C. P. Grey (Stony Brook University)
14:40   415   Understanding the Room Temperature Potential-Composition Curve of Li/LixSi Cells J. R. Dahn, V. Chevrier, J. Li, A. J. Smith, and R. Dunlap (Dalhousie University)
15:20   416   Local Composition of Cycled Silicon Negative Electrodes J. Danet (IMN (institut des matériaux Jean Rouxel)), T. Brousse (University of Nantes), D. Guyomard (CNRS-IMN), and P. Moreau (IMN (institut des matériaux Jean Rouxel))
15:40 Intermission (20 Minutes)
16:00   417   High Capacity and Excellent Cyclability of Nano-Silicon/CB/CMC Composite Anode from Tailored Electrode Preparation D. Mazouzi (IMN-CNRS), B. Lestriez (CNRS-IMN), L. Roué (EMT-INRS), and D. Guyomard (CNRS-IMN)
16:20   418   Silicon and Germanium Thin Film Electrodes for all Solid State Lithium Batteries V. Phan (ICMCB), B. Pecquenard (CNRS, Université de Bordeaux, ICMCB), F. Le Cras (CEA - Commissariat a l'Energie Atomique), and C. Delmas (ICMCB)
16:40   419   Characterization of Sputter Deposited and Mechanically Milled [Sn0.5Co0.5]1-yCy Material for Li-ion Battery Negative Electrodes by Small Angle Neutron Scattering A. D. Todd, P. P. Ferguson (Dalhousie University), J. Barker (NIST Center for Neutron Research, National Institute of Standards and Technology), and J. R. Dahn (Dalhousie University)
17:00   420   Silicon Graphite Nanocomposites Prepared by Chemical Grafting C. Martin (University of Nantes), M. Alias, F. Christien, O. Crosnier (University of Nantes and CEA-LiTEN Grenoble), D. Belanger (UQAM), and T. Brousse (University of Nantes)
17:20   421   On the Reaction Mechanism of Ge and SnNx Thin Films as Negative Electrodes for Li-ion Batteries L. Baggetto (Eindhoven University of Technology), R. Niessen (Philips Research Laboratories Eindhoven), F. Roozeboom (University of Technology Eindhoven), and P. Notten (Eindhoven University of Technology)
17:40   422   Thermodynamics and Kinetics of Lithium Storage in High Rate Hollow Carbon Nanosphere Based Lithium Ion Battery Anodes J. Cox and M. Wagner (The George Washington University)
 

Wednesday, October 7, 2009

Hall E2, Level OE - Yellow

Reaction Mechanism and New Materials

Co-Chairs: C. Grey and S. Meng
TimeAbs#Title and Authors
08:00   423   Heterogeneous Metal Fluoride Conversion Nanocomposites: Fundamental and Practical Mechanistic Attributes F. Badwa (Rutgers University), N. Pereira (Rutgers, The State University of New Jersey), A. Gmitter (Rutgers University), M. Wartelsky, and G. Amatucci (Rutgers, The State University of New Jersey)
08:40   424   Some New Aspects of the Reactivity and Synthesis of Electrode Materials for Li Batteries D. Larcher (Université de Picardie - Jules Verne)
09:20   425   A Comparative Study of α- and β-Li3FeF6: Structure and Electrochemical Behavior E. Gonzalo, A. Kuhn, and F. Garcia-Alvarado (Universidad San Pablo CEU)
09:40 Intermission (20 Minutes)
10:00   426   Oxygen-Release Characteristics of Lithium-Rich Oxides of Varying Size A. Van Bommel and J. R. Dahn (Dalhousie University)
10:20   427   Characterization of Positive Electrode / Electrolyte Interphase in Lithium Batteries N. Dupre, J. Martin, M. Cuisinier, P. Soudan, D. Guyomard (CNRS-IMN), A. Yamada, and R. Kanno (Tokyo Institute of Technology)
10:40   428   Lowering Interfacial Chemical Reactivity of Oxide Materials for Lithium Batteries: A Molecular Grafting Approach J. Gaubicher, F. Tanguy, A. Gaillot (IMN-CNRS), J. Pinson (Laboratoire Environnement et Chimie Analytique, ESPCI, 10 rue Vauquelin, 75231, Paris, France), and D. Guyomard (CNRS-IMN)
11:00   429   The Structural Changes of Layered Cathode Materials during Thermal Decomposition Studied by Synchrotron Based X-ray Techniques and TEM X. Yang, K. Nam, X. Wang, Y. Zhou, H. Lee, O. Haas (Brookhaven National Lab.), L. Wu, Y. Zhu (Brookhaven National Laboratory), J. McBreen (Brookhaven National Lab.), and W. Yoon (Kookmin University, Seoul, KOREA)
11:20   430   In Operando Synchrotron XRD and XAS Characterization of Lithium Battery Electrodes S. Hamelet, C. Masquelier (LRCS), G. Ouvrard (Institut des Materiaux Jean Rouxel (IMN)), M. Zerrouki (IMN), M. Morcrette, J. Shu, J. Leriche (LRCS), P. Soudan (CNRS-IMN), S. Belin, E. Elkaim, and F. Baudelet (SOLEIL SYNCHROTRON)
11:40   431   Development of "In Situ" X-ray Raman Scattering Technique and its Application to Redox Reactions in Battery Materials M. Balasubramanian (Argonne National Lab), S. Pol (Argonne National Laboratory), K. Nagle, J. Seidler (University of Washington), and C. S. Johnson (Argonne National Laboratory)
 

Battery Systems

Co-Chairs: M. Wagemaker and H. Gabrisch
TimeAbs#Title and Authors
14:00   432   Development of All-Solid-State Lithium Secondary Batteries with Sulfide Glass-Ceramic Electrolytes A. Hayashi and M. Tatsumisago (Osaka Prefecture University)
14:40   433   Advanced High Energy Cathodes for Application in Plug-in Hybrid Electric Vehicles K. Amine, H. Deng, H. Wu, I. Belharouak (Argonne National Laboratory), and Y. Sun (Hanyang University)
15:20   434   Controlled Synthesis of Nanotextured Manganese Oxides for Lithium Battery Electrodes D. Portehault (UPMC), S. Cassaignon (UPMC-Paris6), E. Baudrin (LRCS), and J. Jolivet (UPMC)
15:40 Intermission (20 Minutes)
16:00   435   Dependence of Electrochemical Kinetics of Lithium Titanium Oxide Electrode on Hysteresis during a High-Rate Charge-Discharge Reaction K. Hoshina, Y. Tatebayasi, H. Inagaki, and N. Takami (Toshiba)
16:20   436   Aging of LiNi1/3Mn1/3Co1/3O2 as Cathode Material for Li-ion Batteries X. Zhang, F. Gendron, A. Mauger (University Paris 6), L. Qi (Peking University), and C. Julien (University Paris 6)
16:40   437   Study of the Structural Changes upon Reversible Lithium Intercalation in Copper Based Layered Oxysulfides D. Zeng, J. Cabana, S. Indris (SUNY at Stony Brook), W. Yoon (Kookmin University), S. Clarke (University of Oxford), and C. P. Grey (Stony Brook University)
17:00   438   In Situ Raman Spectroelectrochemistry of LiCoO2 in Electrode Systems: Its Stability and Charge Dynamics O. Frank (JHI Prague), S. Klod, C. Taeschner (IFW Dresden), L. Kavan (JHI), and L. Dunsch (IFW Dresden)
17:20   439   The Investigation of Electrochemical Properties of Graphite Positive Electrode in Graphite/Metal Oxides Energy Storage System G. Park, H. Nakamura (Saga University), Y. Lee (Chonnam National University), and M. Yoshio (Saga University)
17:40   440   LiCoO2: The New Polymorph S. Komaba, Y. Kawamoto, N. Yabuuchi (Tokyo University of Science), T. Yoshida, and T. Saito (Nissan Motor Corp.)
 

Gallery, Level 01 - Green

Intercalation Materials

Co-Chairs: N. Dudney and T. Ohzuku
TimeAbs#Title and Authors
o   441   Synthesis and Characterization of LiNi1/3Mn1/3Co1/3-zMgzO2 , LiNi1/3-zMn1/3Co1/3MgzO2, LiNi1/3Mn1/3-zCo1/3MgzO2 W. Luo (Dalhousie Universtiy), F. Zhou, X. Zhao, and J. R. Dahn (Dalhousie University)
o   442   Impact of Synthesis Conditions on the Properties of LiNi2/3Mn1/3O2 F. Zhou, X. Zhao, and J. R. Dahn (Dalhousie University)
o   443   Impact of Co-precipitation Methods on the Properties of LiNi2/3Mn1/3O2 F. Zhou, X. Zhao, and J. R. Dahn (Dalhousie University)
o   444   Li5FeO4 vs. Li2MnO3 as Cathode Precursors for Lithium-ion Batteries C. S. Johnson (Argonne National Laboratory), M. Balasubramanian (Argonne National Lab), S. Pol, S. Kang, and M. Thackeray (Argonne National Laboratory)
o   445   Structural and Electrochemical Properties of Mixed Transition Metal Phospho-olivine Systems LiCo1-xMxPO4 (M = Fe, Mn; 0 < x < 1) M. Memm (Center for Solar Energy and Hydrogen Research), P. Axmann (Center for Solar Energy and Hydrogen Research Ulm), and M. Wohlfahrt-Mehrens (ZSW - Center for Solar Energy and Hydrogen Research)
o   446   The LiFePO4/FePO4 Phase Transformation in Large Single Crystals and Small Crystallites of LiFePO4 K. Weichert (Max Planck Institute for Solid State Research), W. Sigle (Max Planck Institute for Metals Research), R. Amin (Max Planck Institute for Solid State Research), P. Van Aken (Max Planck Institute for Metals Research), T. Acartürk, U. Starke (Max Planck Institute for Solid State Research), and J. Maier (MPI for Solid State Research)
o   447   Complete Lithium Solid Solution in Nanoscale LiMPO4 with Mixed Transition Metals M N. Meethong, Y. Kao, and Y. Chiang (Massachusetts Institute of Technology)
o   448   Hybrid Electrodes Based on Vanadyl Phosphate Dihydrate and Polyaniline Derivatives Films E. Zampronio, J. Ferreira (Departamento de Química, Faculdade de Filosofia, Ciências e Letras de Ribeirão Preto, Universidade de São Paulo, Ribeirão Preto-SP, Brazil), and H. P. Oliveira (São Paulo University/FFCLRP)
o   449   Effect of the Carbon Coating on the Electrochemical Properties of Li0.5Ni0.25TiOPO4 Phosphates I. Saadoune, K. Maher (University Cadi Ayyad Marrakech), K. Edström (Uppsala University), and T. Gustafsson (Uppsala University, Sweden)
o   450   Open-Circuit Voltage Study on LiFePO4 Olivine Cathode H. Matsui, T. Nakamura (University of Hyogo), Y. Kobayashi (Central Research Institute of Electric Power Industry), M. Tabuchi (National Institute of Advanced Industrial Science and Technology), and Y. Yamada (University of Hyogo)
o   451   A New Crystalline Iron(III) Phosphate FePO4·H2O Obtained by a Proton Ion-Exchange Reaction in LiFePO4OH L. Croguennec, N. Marx, D. Carlier, A. Wattiaux (ICMCB - CNRS), L. Bourgeois, P. Kubiak (ISM, Université de Bordeaux), F. Le Cras (CEA - Commissariat a l'Energie Atomique), and C. Delmas (ICMCB)
o   452   LiFePO4 Powders: Synthesis and Interface Phenomena N. Dupre, J. Martin (CNRS-IMN), H. Konishi (Tokyo Institute of Technology), D. Guyomard (CNRS-IMN), R. Kanno, and A. Yamada (Tokyo Institute of Technology)
o   453   Synthesis of LiFePO4/C composite particles by Gas-Solid Phase Reaction T. Nakamura, Y. Shima, H. Matsui, Y. Yamada (University of Hyogo), S. Hashimoto, and N. Koshiba (Mitsui Engineering and Ship-building Co. Ltd.)
o   454   Hydrothermal Synthesis and Characterization of Li2FeSiO4 N. Yabuuchi, Y. Yamakawa, K. Yoshii, and S. Komaba (Tokyo University of Science)
o   455   Electrochemical Evaluation of High Voltage Cathode with a Surface Coating of an Ionically Conducting Oxide J. Dai, G. Skandan (NEI Corporation), and G. Nagasubramanian (Sandia National Laboratories)
o   456   Electrodeposition of Conducting Polymer in EMD Structure A. Bahloul (Centre Universitaire Bordj Bou Arreridj), N. Chaabia (University of Sétif), and C. M. Julien (Universite P. et M. Curie)
o   457   Low-Temperature Atomic Layer Deposited Al2O3 Thin Film on LiCoO2 Cathode for Enhanced Cyclability of Lithium-Ion Batteries F. Wang, C. S. Cheng (Industrial Technology Research Institute), C. Li (National Taipei University of Technology), and J. Lee (National Sun Yat-Sen University)
o   458   A New Approach to Prepare Nanosized Cathode Materials N. Kosova (Institute of Solid State Chemistry and Mechanochemistry) and E. Devyatkina (Institute of Solid State Chemistry and Mechanochemistry SB RAS)
o   459   Electrochemical Properties of Lithium Vanadium Oxide Anode for Lithium Ion Battery H. Kim, J. Kim, J. Kim, K. Chung, W. Cho, and B. Cho (Korea Institute of Science and Technology)
o   460   Nano-Rod MxWO3 Formation by Sol-Gel Coating Method and Its Electrochromic Application C. Kim (Korea Institute of Ceramic Eng. & Tech.), M. Lee (KICET, Yonsei University), S. Huh (Korea Institute of Ceramic Engineering and Technology (KICET)), D. Riu, K. Cho, S. Hyun, T. Lim, E. Koo (KICET), and E. Kim (Yonsei University)
o   461   Thermodynamics of Delithiation / Lithiation in LixCoO2 K. Yanagida, S. Tsuruta, H. Nakamura (SANYO Electric Co. Ltd.), and R. Yazami (CALTECH)
o   462   Intercalation of Lithium to the Carbon Fiber M. Toyoda, A. Takenaka, T. Kinumoto, and T. Tsumura (Oita university)
o   463   Electronic Conductivity Control in Lithium Titanate V. Gorshkov, N. Mukhina, B. Tsarev (Eliont LLC), and D. Kellerman (Institute of Solid State Chemistry)
o   464   Origin of Enhanced Li-intercalation in TiO2-B Nanowires M. V. Koudriachova (University College London)
o   465   Electrochemical Properties of TiO2-B Prepared from γ-FeOOH Type Precursors H. Noguchi, R. Ohga, Y. Tanaka, S. Ennohji, and K. Isono (Saga University)
o   466   Mechanical Synthesis of Nanosized Si Particles via Different Precursors and Application in Li-ion Batteries. D. Mazouzi (INRS), T. Brousse (University of Nantes), P. Moreau (IMN (institut des matériaux Jean Rouxel)), D. Guyomard (CNRS-IMN), and L. Roue (INRS)
o   467   Ordered Macroporous Lithium Manganese Oxide Spinels as Cathodes for Lithium Batteries D. Tonti (CSIC), M. Torralvo, E. Enciso (Universidad Complutense Madrid), I. Sobrados (CSIC), J. Amarilla (Universidad Complutense Madrid), and J. Sanz (CSIC)
o   468   Lithium Intercalation into the Surface Modified Graphite in Aprotic Solution and Ionic Liquid N. Yabuuchi, Y. Shinbe, T. Ozeki (Tokyo University of Science), T. Miura, Y. Katayama (Keio University), and S. Komaba (Tokyo University of Science)
o   469   Electrochemical Properties of the LiNi0.2Mn0.2Co0.6O2 Positive Electrode Material I. Saadoune, Y. Bentaleb, K. Maher (University Cadi Ayyad Marrakech), K. Fujimoto, and S. Ito (Tokyo University of Science)
o   470   High Temperature Lithium Cells using Conversion Oxide Electrodes F. Mestre-Aizpurua (Institut de Ciencia de Materials de Barcelona), S. Laruelle, M. Armand, J. Tarascon, S. Grugeon (LRCS), and M. Palacin (Institut de Ciencia de Materials de Barcelona)
o   471   Evaluation of the Cation Mixing in LiNi1/3Mn1/3Co1/3O2 Compound X. Zhang, F. Gendron, A. Mauger (University Paris 6), L. Qi (Peking University), and C. M. Julien (Universite P. et M. Curie)
o   472   Effect of Ti Substitution in LiMn1.5Ni0.5O4 on Performance and Evaluation of LiMn1.5-xNi0.5TixO4 as a Cathode Material S. Niketic, P. Whitfield, and I. Davidson (National Research Council Canada)
o   473   Crystal Structures and Electrochemistry of Li2MnO3-LiCoO2-LiCrO2 system N. Yabuuchi, K. Yamamoto, K. Yoshii, Y. Abe, I. Nakai, and S. Komaba (Tokyo University of Science)
o   474   Study of the Delithiation Processes in Layered Li[NiyMnyCo(1-2y)]O2 (y = 0.2, 0.3) D. Zeng, J. Cabana (SUNY at Stony Brook), W. Yoon (Kookmin University), and C. P. Grey (Stony Brook University)
o   475   Amorphization Recrystallization Study of Nanocrystalline Li2MnO3 T. Sayle (Cranfield University), P. E. Ngoepe (University of Limpopo), and D. Sayle (Cranfield University)
o   476   Hollow Carbon Nanosphere Based Lithium-ion Negative Electrodes Performance with Low Temperature Electrolytes J. Cox and M. Wagner (The George Washington University)
o   477   Transmission Electron Microscopy Study of Heavily Delithiated LixCoO2 Cathode Material with O1 Structure H. Gabrisch (University of New Orleans), R. Yazami (CALTECH), S. Tsuruta, K. Yanagida, and H. Nakamura (SANYO Electric Co. Ltd.)
o   478   Structure and Electrochemical Properties of Epitaxial Thin Film Electrodes for Lithium Batteries M. Hirayama, T. Toujigamori, K. Suzuki, W. Cho (Tokyo Institute of Technology), K. Tamura, J. Mizuki (Japan Atomic Energy Agency), and R. Kanno (Tokyo Institute of Technology)
o   479   Electrochemical Characteristics of MoO2 Anode Materials with Various Morphologies for LIB Applications J. Song, H. Kang, K. Kim, Y. Jo, and Y. Kim (Korea Electronics Technology Institute)
o   480   Synthesis of Nanostructured Ti-O Compounds and Their Lithium Insertion Properties S. Myung, N. Takahashi (Iwate University), D. Kim (Hanyang University), S. Kim (Sejong University), Y. Sun (Hanyang University), and H. Yashiro (Iwate University)
o   481   Effect of Surface Energies and Nanoparticle Size Distribution on Open Circuit Voltage of Li-Electrodes A. Van der Ven (Department of Materials Science and Engineering, The University of Michigan) and M. Wagemaker (Delft University of Technology)
o   482   Effect of Sn Substitution in Spinel Lithium Manganese Oxide Thin Films J. Choi, D. Shin (Korea Institute of Science and Technology), Y. Cho (Yonsei University), J. Ahn (Korea Institute of Science and Technology), W. Bang (Samwon Vacuum Co., Ltd.), and S. Yoon (Korea Institute of Science and Technology)
 

Thursday, October 8, 2009

Hall E2, Level OE - Yellow

Phosphates

Co-Chairs: A. Yamada and L. Croguennec
TimeAbs#Title and Authors
08:00   483   Phase Behavior of Nanoscale Intercalation Compounds and Impact on Electrochemical Properties Y. Chiang, Y. Kao, N. Meethong (Massachusetts Institute of Technology), M. Tang (Lawrence Livermore National Laboratory), and W. Carter (Massachusetts Institute of Technology)
08:40   484   Manipulation of Lattice Defects in Olivine Phosphate Nanocrystals for High-Power Li Batteries S. Chung (Inha University)
09:00   485   Modeling Mass Transport in LiFePO4 and Other Phase-Change Materials I. V. Thorat and D. R. Wheeler (Brigham Young University)
09:20   486   Very High Rate Performance of LiFePO4 by Using Small Particle with Li Conducting Surface Phase B. Kang (MIT) and G. Ceder (Massachusetts Institute of Technology)
09:40 Intermission (20 Minutes)
10:00   487   Nature of Cation Site Occupancy and Tailoring Cation Doping in High Voltage Olivine-structured Material, LiCoPO4 Y. Kang (Kongju National University), Y. Kim (Korea Research Institute of Standards and Science), D. Han (Korea Advanced Institute of Science and Technology), R. Yin (Yonsei University), and H. Kwon (Korea Advanced Institute of Science and Technology)
10:20   488   Carbon Coated LiMnPO4 Prepared by a Combination of Spray Pyrolysis with Dry Ballmilling and Its Electrochemical Properties T. Doan, Z. Bakenov, and I. Taniguchi (Tokyo Institute of Technology)
10:40   489   Comparative Study of the Various Synthetic Routes for LiMPO4 Preparation N. Dimov and M. Yoshio (Saga University)
11:00   490   Fast and Low-cost Synthesis of LiFePO4/C Composites using Fe3+ Precursor N. Kosova (Institute of Solid State Chemistry and Mechanochemistry), E. Devyatkina, and S. Petrov (Institute of Solid State Chemistry and Mechanochemistry SB RAS)
11:20   491   Hydrothermal Preparation of LiFePO4 Mediated by Organic Acid J. Ni, M. Morishita, N. Takeichi, T. Sakai (National Institute of Advanced Industrial Science and Technology), K. Okabe, T. Tanaka, Y. Ohtani, and M. Watada (GS Yuasa Corporation)
11:40   492   Microwave Synthesis of Doped and Undoped Lithium Mixed Cation Transition Metal Phosphates A. M. Hashambhoy and J. F. Whitacre (Carnegie Mellon University)
 

New Materials

Co-Chairs: D. Larcher and K. Amine
TimeAbs#Title and Authors
14:00   493   Fluoride Ion Electrochemical Intercalation into Graphitic Materials R. Yazami and I. Darolles (CALTECH)
14:20   494   Investigation of Vanadium Oxides Prepared by Ion Exchange C. Lee, K. Tanzil, M. Sharma, A. Subramanian, K. Takeuchi, A. Marschilok, and E. Takeuchi (University at Buffalo)
14:40   495   Voltammetric and Impedance Studies of the Vanadium Pentoxide/Cetyl Pyridinium Chloride Hybrid Material E. Guerra (Departamento de Química, Faculdade de Filosofia, Ciências e Letras de Ribeirão Preto, Universidade de São Paulo, Ribeirão Preto-SP, Brazil), D. Cestarolli (Universidade Federal de São João Del Rei, CAP, Ouro Branco-MG, Brazil), L. Da Silva (Departamento de Química/FACESA, Universidade Federal dos Vales do Jequitinhonha e Mucuri, Diamantina-MG, Brazil), and H. P. Oliveira (São Paulo University/FFCLRP)
15:00   496   Li2FeS2: A Low-cost, High Capacity and Safe Cathode Material for Lithium-ion Batteries E. Kendrick, A. Swiatek, E. Mcphee, and J. Barker (FiFe Batteries Ltd)
15:20   497   Electronic and Electrochemical Properties of Nanosized and Micrometric α-MoO3 Particles as Positive Electrode for Rechargeable Lithium Batteries S. Berthumeyrie (CNRS / ICMPE), J. Badot (CNRS / ENSCP), S. Bach (CNRS / ICMPE), J. Pereira-Ramos (CNRS), and O. Dubrunfaut (SUPELEC)
15:40 Intermission (20 Minutes)
16:00   498   Nano-size Effect on the Insertion Process into Rutile-type Structure Materials D. Muñoz-Rojas, M. Casas-Cabanas (UPJV), D. Portehault (UPMC), P. Gibot (Institut Saint Louis), S. Cassaignon, J. Jolivet (UPMC), and E. Baudrin (LRCS)
16:20   499   TiO2 Rutile Nanowhiskers as Negative Electrode for Li-ion Batteries M. Pfanzelt, P. Kubiak (ZSW), J. Geserick, N. Hüsing (University Ulm), and M. Wohlfahrt-Mehrens (ZSW - Center for Solar Energy and Hydrogen Research)
16:40   500   A Kinetic Study of Electrochemical Li Insertion into the Nano-sized Rutile Type TiO2 S. Bach (CNRS / ICMPE), J. Pereira-Ramos (CNRS), and P. Willmann (CNES Toulouse)
17:00   501   Morphology Controlled TiO2 Nanotubes as High Performance Anode Materials for Rechargeable Lithium Ion Battery Y. Yoon, C. Bae, W. Yoon (Kookmin University), J. Moon (Yonsei University), and H. Shin (Kookmin University)
17:20   502   Electrochemical Properties of Lithium Iron Borate by First Principles Calculations Y. Koyama, I. Tanaka (Kyoto University), N. Iwane (Tokyo Institute of Technology), S. Nishimura, and A. Yamada (The University of Tokyo)
17:40   503   A High-Throughput Computational Search for Novel Li-ion Battery Cathode Materials A. Jain, G. Hautier, C. Moore, and G. Ceder (Massachusetts Institute of Technology)