Progress in Cathodes II

Yamada, Atsuo

Progress in Cathodes II

Wednesday, 8 October 2014: 13:30-18:20

Sunrise, 2nd Floor, Galactic Ballroom 2 (Moon Palace Resort)

Chairs:

Atsuo Yamada and Byoungwoo Kang

13:30

302

On the Unusually High Fe³⁺/Fe²⁺ Redox Potential Exceeding 4V

A. Yamada (The University of Tokyo, ESICB, Kyoto University), S. C. Chung (The University of Tokyo), S. Nishimura (The University of Tokyo, ESICB, Kyoto University), and P. Barpanda (Indian Institute of Science)

14:00

303

Stability of Carbon Coating Surrounding LiMPO₄ (M=Fe, Co) Particles in Water Free and Water Containing Electrolytes

M. Metzger, C. Marino, D. Haering, C. Kavakli (Technical Electrochemistry, Technische Universität München), C. Alarcon, S. Puravankara, T. Nilges (Synthesis and Characterization of innovative Materials, Technische Universität München), C. Stinner (BMW AG), and H. A. Gasteiger (Technische Universität München)

14:20

304

In Situ XANES Analysis of Olivine-Type Cathode Materials to Study Kinetically Preferred State

Y. Satou (DENSO CORPORATION, Graduate School of Energy Science, Kyoto University), Y. Kimura, S. Komine (DENSO CORPORATION), S. Takai, and T. Yao (Graduate School of Energy Science, Kyoto University)

14:40

305

The Delithiation Behavior of LiFePO₄ Particles with Broad Particle Size Distribution during Chemically Delithiation

S. Yoo and B. Kang (Pohang University of Science and Technology, MSE)

15:00

306

Degradation Mechanism of LiCoPO₄ As a Cathode for Li-Ion Batteries

H. Miki (Battery Research Division, Toyota Motor Corporation), X. Gao, Y. H. Ikuhara (Japan Fine Ceramics Center), H. Koga, and H. Iba (Battery Research Division, Toyota Motor Corporation)

15:20

307

LiCoPO₄ Based High Energy Li-Ion Cathodes

J. L. Allen (U.S. Army Research Laboratory), J. Wolfenstine (U.S. Army Research Lab), J. L. Allen, and T. R. Jow (U.S. Army Research Laboratory)

15:40

Break

16:00

308

Evidence for Continuous Transformation in Mixed Manganese Iron Olivines

K. Xiang, D. B. Ravnsbaek, W. Xing, Z. Li, and Y. M. Chiang (Massachusetts Institute of Technology)

16:20

309

Li₃V₂(PO₄)₃ As a Positive Electrode Material for Rechargeable Lithium Batteries

J. S. Park and S. T. Myung (Sejong University)

16:40

310

Improvement of Electrochemical Performance of Li-Rich Cathode Material with Specific Morphology for Lithium Ion Batteries

X. He, J. Wang, and J. Li (MEET Battery Research Center, University of Muenster, Corrensstrasse 46, 48149 Muenster, Germany)

17:00

311

Influences of Dopants on the Properties of LiMnO₂ and Li₂MnO₃ in Olo Cathode for Li Ion Batteries

F. Kong, R. C. Longo (Materials Science & Engineering Dept., The University of Texas at Dallas, Richardson, 75080 Texas, USA), M. S. Park (Energy Lab., SAIT, Samsung Electronics, Suwon 443-803, Republic of Korea), J. Yoon (Energy Lab., SAIT, Samsung Electronics,Suwon 443-803, Republic of Korea), D. H. Yeon, J. H. Park (Energy Lab., SAIT, Samsung Electronics, Suwon 443-803, Republic of Korea), W. Wang, S. KC (Materials Science & Engineering Dept., The University of Texas at Dallas, Richardson, 75080 Texas, USA), S. K. Doo (Energy Lab., SAIT, Samsung Electronics, Suwon 443-803, Republic of Korea), and K. Cho (Department of Mechanical and Aerospace Engineering, Seoul National University, Korea.)

17:20

312

Mechanism of Performance Improvement in LiNi_0.5Mn_1.5-XTi_xO₄ High Voltage Spinel Full-cells paired with Graphite and Li₄Ti₅O₁₂ Negative Electrodes

J. H. Kim (General Motors R&D Center), N. P. W. Pieczonka (Optimal CAE Inc), Z. Liu (General Motors Global Research & Development Center), P. Lu (General Motors R&D Center), B. R. Powell (General Motors Global Research & Development Center), and Y. K. Sun (Department of Energy Engineering, Hanyang University)

17:40

313

Fe and V Substituted Li₂MnSiO₄/C As Potential Cathode Material for Li-Ion Batteries

N. Wagner, A. M. Svensson, and F. Vullum-Bruer (Norwegian University of Science and Technology)

18:00

314

Electronic Origin of Different Discharge Curves in Li_xCoO₂ and Na_xCoO₂cathode Materials

J. Molenda, A. Milewska (AGH University of Science and Technology, Faculty of Energy and Fuels), D. Baster (AGH University of Science and Technology, Faculty of Energy an Fuels), and J. Tobola (AGH University of Science and Technology, Faculty of Physics and Applied Computer Science)

See more of: A5: Lithium-Ion Batteries
See more of: Batteries and Energy Storage

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