A05 Li-ion Electrolytes

08:00

The Effect of Functional Groups and Co-Additives on the Performance of an Electrolyte Additive for Li-Ion Cells

R. Gauthier, D. S. Hall, T. Hynes, and J. R. Dahn (Dalhousie University)

08:20

Dual Salt Electrolyte of Lifsi and LiPF₆ for Fast-Charging Lithium Ion Battery

T. Liu (Virginia Tech), X. Wu (Purdue University), F. Lin (Department of Chemistry, Virginia Tech), D. L. Wood III (University of Tennessee, Oak Ridge National Laboratory), I. Belharouak, and Z. Du (Oak Ridge National Laboratory)

08:40

New Electrolyte Additives Formed By in Situ Method for High Voltage Lithium Ion Battery

J. Yang (Argonne National Laboratory, Chemical Science and Engineering Division), I. A. Shkrob (Argonne National Laboratory), Q. Liu (Chemical Sciences and Engineering Division, Argonne National Laboratory), N. L. Dietz Rago (Argonne National Laboratory), Z. Zhang (Chemical Sciences and Engineering Division, Argonne National Laboratory), and C. Liao (Argonne National Lab, Joint Center for Energy Storage Research)

09:00

Extending Cycle Life and Safety of Si Based High Energy Li Ion Batteries Using Localized High Concentration Electrolytes

J. G. Zhang, H. Jia, X. Li, X. Cao, R. Yi, Q. Li, and W. Xu (Pacific Northwest National Laboratory)

09:20

Solvation Structure and Li-Ion Transport Properties of Highly Concentrated Sulfone-Based Electrolytes

S. Sasagawa, Y. Ugata, K. Ueno, K. Dokko, and M. Watanabe (Yokohama National University)

09:40

Break

10:00

Lithium Fsi-Based Low Ethylene Carbonate Content Electrolyte for High-Power Lib

M. Ishikawa and S. Uchida (Kansai University)

10:20

Solvate Structures and Transport Properties in Highly Concentrated Li[FSA]/Succinonitrile Liquid Electrolytes

Y. Ugata, K. Ueno, K. Dokko, and M. Watanabe (Yokohama National University)

10:40

Lithium-Ion Transport and Cycling Characteristics of Fluorinated Electrolytes

D. B. Shah (University of California, Berkeley, Lawrence Berkeley National Lab), H. Q. Nguyen, L. S. Grundy (University of California, Berkeley), K. R. Olson, S. J. Mecham (University of North Carolina at Chapel Hill), J. M. DeSimone (University of North Carolina at Chapel Hill, North Carolina State University), and N. P. Balsara (University of California, Berkeley, Lawrence Berkeley National Laboratory)

11:00

Effects of Esters Used in Liquid Electrolyte for Li(Ni_0.6Mn_0.2Co_0.2)O₂/Graphite Pouch Cells Under Fast Charging

X. Wu (Oak Ridge National Laboratory, Purdue University), T. Liu (Virginia Tech), K. Zhao (Purdue University), F. Lin (Department of Chemistry, Virginia Tech), D. L. Wood III (University of Tennessee), I. Belharouak, and Z. Du (Oak Ridge National Laboratory)

11:20

Highly Safe and High Energy Density Lithium-Ion Battery Using Less Volatile Electrolyte

A. Unemoto, H. Konishi (Research and Development Group, Hitachi, Ltd.), K. Nishimura (Hitachi, Ltd., Research&Development Group), E. Seki, J. Kawaji (Research and Development Group, Hitachi, Ltd.), and T. Okumura (Hitachi, Ltd., Research&Development Group)

11:40

Electrolyte Additive Effects Observed By Gradient Polarity Solvent Wash

C. Fang and G. Liu (Lawrence Berkeley National Laboratory)

12:00

Reactions in Lithium Ion Battery Electrolytes-How New Methods Can Solve Old Problems-

S. Wiemers-Meyer (MEET Battery Research Center, University of Münster), M. Winter (Forschungszentrum Jülich GmbH, IEK-12, MEET Battery Research Center, University of Münster), and S. Nowak (MEET Battery Research Center, University of Münster)

12:20

Electrochemical Aperture Enabling Rapid Delivery of Liquid Electrolyte for Lithium-Ion Reserve Batteries

D. X. Liu, S. Snyder, T. D. Hall, M. Inman, and E. J. Taylor (Faraday Technology, Inc.)