7th International Conference on Advanced Lithium Batteries for Automobile Applications

Program

Program (pdf) is available

Program (Final / as of June 23, 2014)

Tuesday, July 29, 2014

Registration 16:00
Welcome reception 17:00 at Reception Hall

Wednesday, July 30, 2014

08:30 - 09:10 Registration
09:10 - 09:20 Welcoming Address

[KEY NOTE SPEECH] GOVERNMENT POLICIES FOR EXPANDING ELECTRIFICATION
Chaired by Bunel, Emilio
Argonne National Laboratory, USA

09:20 - 09:50 Keynote
Yoshida, Ken-ichiro
Director, Electric Vehicle, Advanced Technology and ITS Promotion Office
Ministry of Economy, Trade & Industry, Japan
09:50 - 10:20 Keynote
Duong, Tien
US Department of Energy, USA
10:20 - 10:40 Coffee break

[SESSION ONE] ADVANCED NEGATIVE ELECTRODE MATERIALS
Chaired by Sakaebe, Hikari
AIST, Japan

10:40 - 11:05 Micro-size spherical TiO2(B) secondary particles as anodes for high-power and long-life lithium-ion batteries
Harada, Yasuhiro
Toshiba Corporation, Japan
11:05 - 11:40 New Titanium Dioxide-Based High Potential Negative Electrodes
Inaba, Minoru
Doshisha University, Japan
11:40 - 12:05 Carbonaceous and silicon nano composite materials for lithium-ion battery
Kim, Young-Jun
Korea Electronics Technology Institute, Korea
12:05 - 13:30 Lunch

[SESSION TWO] ADVANCED ELECTROLYTES
Chaired by Sun, Shi-Gang
Xiemen University, China

13:30 - 13:55 Electrolyte additives to improve safety and performance of lithium ion batteries
Amine, Khalil
Argonne National Laboratory, USA
13:55 - 14:20 Solvate Ionic Liquid for Next Generation Lithium Batteries
Watanabe, Masayoshi
Yokohama National University, Japan
14:20 - 14:45 Specific Behavior of FSI at Electrode-Electrolyte Interphase and its Effect on LIB Performance
Ishikawa, Masashi
Kansai University, Japan
14:45 - 15:10 Fluoro-Alkylphosphates as Fire-retardant Components in Lithium-ion Battery Electrolytes
Morita, Masayuki
Yamaguchi University, Japan
15:10 - 15:35 Using GC/MS Experiments to Determine What Happens to Electrolyte Additives in Li-ion Cells during Formation, Storage and Cycling
Petibon, Remi
Dalhousie University, USA
15:35 - 16:00 Coffee break

[SESSION THREE] ADVANCED ELECTRODE REACTION MECHANISMS
Chaired by Sun, Yang-Kook
Hanyang University, Korea

16:00 - 16:25 Dissolution-migration-deposition processes in Lithium ion batteries
Qiu, Xinping
Tsing Hua University, China
16:25 - 16:50 Structural Stability in the Initial Discharge Process of the Li-rich Solid Solution Cathode Material using Neutron and Synchrotron X-ray Sources
Idemoto, Yasushi
Tokyo University of Science, Japan
16:50 - 17:15 In situ Synchrotron Studies on Li-ion batteries -Materials, Electrodes, and Cells-
Sasaki, Tsuyoshi
Toyota Central R&D Labs, Japan
17:15 - 17:40 operando Analysis of Battery Reaction by synchrotron X-Ray
Uchimoto, Yoshiharu
Kyoto University, Japan
17:40 - 18:05 New Lithium-Excess Electrode Materials with 4d-Transition Metals for Rechargeable Lithium Batteries
Yabuuchi, Naoaki
Tokyo Denki University, Japan
18:05 - 18:30 Tuning the surface structure and performances of electrode materials of lithium ion battery
Sun, Shi-Gang
Xiemen University, China

Thursday, July 31, 2014

[SESSION ONE] ADVANCED LI-ION BATTERY SYSTEM-1
Chaired by Amine, Khalil
Argonne National Laboratory, USA

09:00 - 09:25 Advanced Battery Research at Argonne National Laboratory: A Success Story for the U.S. National Lab System
Streiffer, Stephen
Argonne National Laboratory, USA
09:25 - 09:50 Expansion of EV/PHEV Mobility with Lithium-Ion Traction Battery Technology
Tozuka, Yuji
Mitsubishi Motors Corporation, Japan
09:50 - 10:15 Current status and future prospects of EV Battery development
Miyamoto, Takeshi
Nissan Motor Co. Ltd, Japan
10:15 - 10:40 Next Generation Rechargeable Batteries for Automobile Application
Saito, Toshiya
Toyota Motor Corporation, Japan
10:40 - 11:00 coffee break

[SESSION TWO] ADVANCED LI-ION BATTERY SYSTEM-2
Saito, Toshiya
Toyota Motor Corporation, Japan

11:00 - 11:25 Energy Density Increase of Automotive Batteries: Lifetime Challenges in Research and Application
Maglia, Filippo
BMW, Germany
11:25 - 11:50 Honda's Vehicles Electrification Technology Development (tentative)
Shinmura, Kouich
Honda R&D Co., Ltd., Japan
11:50 - 12:15 Core-Shell Structures and High-Energy Batteries
Verbrugge, Mark
General Motors, USA
12:15 - 13:15 Lunch
13:15 - 15:15

[POSTER SESSION] Poster Board 1800 height – 1200 width

[SESSION THREE] ADVANCED POSITIVE ELECTRODE MATERIALS AND DIAGNOSTICS
Schulz-Dobrick, Martin
BASF, German

15:15 - 15:40 High-energy Cathode Material for Advanced Lithium-ion Batteries
Sun, Yang-Kook
Hanyang University, Korea
15:40 - 16:05 Understanding and controlling of electrode/electrolyte interfaces in lithium batteries
Hirayama, Masaaki
Tokyo Institute of Technology, Japan
16:05 - 16:30 Phase Transition Mechanism of Olivine LiMnyFe1-yPO4 Cathodes under Battery Operation
Takamatsu, Daiko
Hitachi, Ltd, Japan
16:30 - 16:55 Non Destructive Inspection for Diagnosis of LIB by Electrochemical Impedance Analysis
Momma, Toshiyuki
Waseda University, Japan
16:55 - 17:15 break

[SESSION FOUR] ADVANCED LI-ION BATTERY COMPONENTS AND SYSTEMS
Kanamura, Kiyoshi
Tokyo Metropolitan University, Japan

17:15 - 17:40 Nanostructured Nonwoven Separators: A New Membrane Opportunity Enabling High-Performance Mid-/Large-Sized LIBs
Lee, Sang-Young
UNIST, Korea
17:40 - 18:05 GS Yuasa's lithium-ion technology and products for various electrified applications
Kitamura, Masanori
GS Yuasa International Ltd., Japan
18:05 - 18:30 Investigation of main cause Li-ion safety-internal shorts
Zhang, John
Celgard, USA
19:00 -
Banquet

Friday, August 1, 2014

[SESSION ONE] ADVANCED LI-ION BATTERY COMPONENTS
Chaired by Qiu, Xinping
Tsing Hua University, China

09:00 - 09:25 Beyond Lithium-Ion: Research on Rechargeable Metal-Air Batteries
Kim, Ho-Cheol
IBM, USA
09:25 - 09:50 Research on Novel Metal Sulfides for High-Energy Batteries in RISING Project
Sakaebe, Hikari
AIST, Japan
09:50 - 10:15 Interface formation for all-solid-state batteries with sulfide electrolytes
Hayshi, Akitoshi
Osaka Prefectural University, Japan
10:15 - 10:40 Oxocarbonic Acid-type Organic Electrode Active Materials for Sodium-ion Battery
Okada, Shigeto
Kyushu University, Japan
10:40 - 11:00 Coffee break

[SESSION TWO] BEYOND LI-ION BATTERY-2
Kim, Ho-Cheol
IBM, USA

11:00 - 11:25 Lithium Metal Polymer Batteries for Automotive Applications
Zarem, Hal
SEEO, USA
11:25 - 11:50 Advanced Battery Design based on Three-Dimensionally Ordered Macroporous Polymer Separators
Kanamura, Kiyoshi
Tokyo Metropolitan University, Japan
11:50 - 12:15 Cathode materials and electrolytes for advanced lithium-ion batteries
Schulz-Dobrick, Martin
BASF, Germany
12:15 - 12:25 Closing Remarks
12:25 - 13:30 Lunch

Poster Presentation

Thursday, July 31, 2014

Lithium-ion Positive Electrode

P-01 Investigation of the role of binder on the cycleability of LiCoO2 by single particle measurement
Munakata, Hirokazu; Tokyo Metropolitan University, Japan
P-02 Effect of stepwise charging for Fe and Ni substituted Li2MnO3 positive electrode material
Tabuchi, Mitsuharu; AIST, Japan
P-03 High durable LFP/Conductive agents composite tailored for automobile applications
Sonoda, Takashi; Denki Kagaku Kogyo Kabushiki Kaisha, Japan
P-04 Three dimensional structure of LiV0.5Fe0.5PO4F Lithium ion battery cathode
Huang, Zhen-Dong; Kyoto University, Japan
P-05 Electrochemical Characteristics of Binder-free Silicon Nanoparticle Negative Electrode Prepared by Electrophoretic Deposition Method
Saito, Ryohei; Iwate University, Japan
P-06 Effects of Synthetic Conditions on Electrode Characteristics of α-MnO2 Nano-particle for Lithium Secondary Batteries
Sekiguchi, Taisei; Iwate University, Japan
P-07 Electrochemical incorporation of Li into Al-Mn LDHs
Katakura, Katsumi; Nara National College of Technology, Japan
P-08 Impact of Porous Structure of Carbon-Sulfur Composite Cathode on Performance of Li-S Battery with Solvate Ionic Liquids.
Ikoma, Ai; Yokohama National University, Japan
P-09 Niobium Sulfide Based Electrode Active Materials for Lithium/Metal Sulfide Secondary Batteries
Sakuda, Atsushi; AIST, Japan
P-10 Study of the Crystal Growth Process and the Electrochemical Properties of High Voltage Cathode Active Materials: LiNi1/2Mn3/2O4
Takashi, Yusuke; Mie University, Japan
P-11 Surface structure and high-voltage charge/discharge characteristics of Al-oxide coated LiNi1/3Co1/3Mn1/3O2 cathodes.
Yano, Akira; AIST, Japan
P-12 in operando XAFS study on electrode/electrolyte interface in LiFePO4 and LiCoO2
Yamamoto, Kentaro; Kyoto University, Japan
P-13 Reaction mechanism of two lithium reaction in Li2FeSiO4
Titus Masese; Kyoto University, Japan
P-14 Enhanced rate property in Li2FeSiO4 cathode using molten-salt electrolyte
Mori, Takuya; Kyoto University, Japan

Lithium-ion Negative Electrode

P-15 Charge and discharge performance of Si Leaf-powder® negative-electrodes at high and low temperatures
Masuo, Yuta; Doshisha University, Japan
P-16 Development of a New Energy Storage System Using Li Pre-doped Si Anodes
Saito, Morihiro; Tokyo University of Agriculture and Technology, Japan
P-17 Synthesis and Electrochemical Properties of TiO2(R) as a High-Potential Negative-Electrode for Lithium Ion Batteries
Kanazawa, Ryotaro; Doshisha University, Japan
P-18 Soft Chemical Synthesis and Characterization New titanate
Chiba, Kazuki; Kyoto University, Japan
P-19 Synthesis of Li4.3Ti5O12 Carbon Composite using PVA as a Carbon Source and Its Electrode Properties for Lithium Secondary Batteries
Tada, Yuya; Iwate University, Japan
P-20 Electrochemical Characteristics of Fe-Sn Alloy Film Prepared by Pulse Electrolysis as Negative Electrode for Lithium Secondary Batteries
Kudo, Yoshinori; Iwate University, Japan
P-21 Influence of Carbon Conductive Agents on Electrochemical Characteristics of SnO2 Nano Particle as Negative Electrode for Lithium Secondary Batteries
Abe, Takahiro; Iwate University, Japan
P-22 Mechanochemical Synthesis of Li22Sn5 Anode for Li-S batteries with Solvate Ionic Liquids
Ikeda, Kohei; Yokohama National University, Japan
P-23 In situ Raman observation on lithium-ion intercalation/deintercalation behavior into/from graphitic materials
Maruyama, Shohei; Kyoto University, Japan
P-24 Analytical Study of Solid Electrolyte Interphase on the Li Metal
Kuwata, Hiroko; Mie University, Japan
P-25 Initial process of lithium electrodeposition from ionic liquids under various current densities
Sano, Hikaru; AIST, Japan

Lithium-ion Electrolyte

P-26 New Anion Formation Between Benzimidazole and Pentafluorophosphate Through a Lewis Acid-Base Reaction on a Lithium-Ion Battery
Wang, Fu-Ming; National Taiwan University of Science and Technology, Taiwan
P-27 In-situ analysis for interfacial reactions of overcharge protection additives for Li ion batteries
Akita, Yasuhiro; Tokyo Metropolitan University, Japan
P-28 Electrochemical properties of trialkylborates with various alkyl substituents as electrolyte additives for a lithium-ion battery
Tachibana, Yuki; DENSO CORPORATION, Japan
P-29 Design, synthesis, and purification of novel liquid electrolyte molecules for lithium ion batteries assisted by theoretical chemistry
Tanaka, Yasutaka; Shizuoka University, Japan
P-30 Influence of Cation Types of Room-temperature Ionic Liquid on Electrochemical Characteristics of Natural Graphite Electrode
Sato, Hiroki; Iwate University, Japan
P-31 Ac impedance study of ion transport through pore in the porous electrode
Fukutsuka, Tomokazu; Kyoto University, Japan
P-32 Development of Bipolar-type All-solid-state Lithium Battery Based on Quasi-solid-state Electrolytes
Gambe, Yoshiyuki; Tohoku University, Japan

Lithium-ion Cell and Safety

P-33 Investigation of gas source in cycle test of lithium ion battery with 5V cathode material and electrolyte composed of ethylene carbonate and fluorinated phosphate
Katoh, Yukoh; NEC Corporation, Japan
P-34 Lithium-Ion Rechargeable Battery Technology Realizing High Safety and Long Life
Ohta, Tomoyuki; NEC Energy Devices, Ltd., Japan
P-35 Analysis of capacity fade and internal resistance of Lithium-Ion Battery
Tsubota, Takayuki; Kobelco Research institute,Inc., Japan
P-36 Application of Square-Current Electrochemical Impedance Spectroscopy
(SC-EIS) to Battery Diagnosis Technology for Large-scale LIB
Yokoshima, Tokihiko; Waseda University, Japan
P-37 Measurement method of ionic and electronic conduction in composite electrode
Chen, Kezheng; Kyoto University, Japan
P-38 Degradation of EV batteries in Practical Use
Kihira, Nobuo, CRIEPI, Japan

Beyond Lithium-ion

P-40 Structural Stabilization of Layered NaxCoO2 by Ca2+ Substitution
Mizukoshi, Fumikazu; Mie university, Japan
P-41 Mechanical synthesis and the electrochemical properties of NaMF3 (M=Fe, Mn) cathodes for sodium ion batteries
Kitajou, Ayuko; Kyoto University, Japan
P-42 Thermal stability of disodium rhodizonate cathode for Na-ion battery
Zhao, Liwei; AIST, Japan
P-43 Application of Spark-Plasma-Sintering Process for Fabricating Graphite/SE/Li2S All-Solid-State Batteries
Takeuchi, Tomonari; AIST, Japan
P-44 Mg deposition and disolution in triglyme-based solution
Hattori, Masashi; Kyoto University, Japan
P-45 Interfacial reaction between electrode and electrolyte for Mg rechargeable battery cathode
Yoshinari, Takahiro; Kyoto University, Japan
P-46 Mg rechargeable battery using polyanion compounds and triglyme based electrolyte
Orikasa, Yuki; Kyoto University, Japan
P-47 Investigation of the surface state of LiCoO2 thin-film electrode by redox reaction of metal cation
Inamoto, Jun-ichi; Kyoto University, Japan
P-48 Functional carbon-sulfur composite cathodes for lithium-sulfur batteries
Wang, Donghai, Pennsylvania State University, USA