202nd Meeting - Salt Lake City, UT
October 20-25, 2002
PROGRAM INFORMATION
C2 - Rechargeable Lithium Batteries
Battery/Energy Technology
Monday October 21, 2002
Imperial Ballroom A, Main Level, Grand America Hotel
Cathodes I
Co-Chairs: J. Dahn and P. Notten
Time | Abs# | Title |
10:00 | 104 |
Staging Phase Transitions in LixCoO_2 - Z. Chen and J. Dahn
(Dalhousie University) |
10:15 | 105 |
Phase Transformation in LiCoO_2 - H.
Gabrisch, R. Yazami, and B. Fultz (California Institute of Technology) |
10:30 | 106 |
On the T2-LixCoO2 (0.52 < x < 0.72) Phase: Structural Study and First Principle Calculations - D. Carlier (Massachusetts Institute of Technology), L. Croguennec
(CNRS), A. Van Der Ven, G. Ceder (Massachusetts Institute of Technology), M.
Menetrier, and C. Delmas (CNRS) |
10:45 | 107 |
Phase Relationships of Chemically Delithiated Layered Li1-xMO2 (M = Co and Ni) Cathodes - V. Sivaramakrishnan and A. Manthiram (The University of Texas at Austin) |
11:00 | 108 |
LiCoO2 Thin Film Trench Cathodes Deposited by Liquid-delivery Metalorganic Chemical Vapor Deposition for Rechargeable Lithium Batteries - S.-I.
Cho, W.-G. Choi, and S.-G. Yoon (Chungnam National University) |
11:15 | 109 |
Lithium Intercalation in Submicron LiCoO2 Films - P.
Bouwman, B. Boukamp, H. Bouwmeester (University Twente), and P. Notten (Philips Research Laboratories) |
11:30 | 110 |
The Effect of Aluminum-Oxide Coating on the Cycling Behavior in Thin-Film LiCoO2 Cathodes -
Y.J. Kim, T.-J. Kim, B. Kim, D. Ahn, D. Son, J.-G. Lee, and B. Park (Seoul National University) |
11:45 | 111 |
EIS Studies of Interfacial Impedance Built-up on LiCoO_2 upon Cycling - Y. Gao and M. Yakovleva (FMC Corporation) |
Imperial Ballroom A, Main Level, Grand America Hotel
Cathodes II
Co-Chairs: E.S. Takeuchi and J. Schoonman
Time | Abs# | Title |
2:00 | 112 |
Intercalation Chemistry and Battery Materials - M.S. Whittingham (State University of New York at Binghamton) |
2:45 | 113 |
Improving PEM Fuel Cell Robustness and Lifetime with Respect to Reactant Starvation - D. Wilkinson (Ballard Power Systems) |
3:15 | 114 |
Film Formation at Anodes in Rechargeable Lithium Batteries in the Presence of Electrolyte Additives - M. Winter,
J.O. Besenhard, K.C. Moller, M.R. Wagner, C. Veit, J.H. Han, H. Santner, A.
Trifonova, W. Kohs, L. Volpe, and P.R. Raimann (Graz University of Technology) |
3:45 | |
Fifteen-Minute Intermission - |
4:00 | 115 |
Enhanced Lithium Diffusion in Thin-Film LiCoO2 Cathodes by Al2O3 Coating -
Y.J. Kim, T.-J. Kim, B. Kim, D. Ahn, D. Son, J.-G. Lee, and B. Park (Seoul National University) |
4:15 | 116 |
Aging Kinetics of the LiCoO2 Positive Electrode - Y. Ozawa, R.
Yazami, and B. Fultz (Caltech) |
4:30 | 117 |
Understanding the NMR Shifts in Layered Paramagnetic Oxides by using DFT Calculations - D. Carlier (Massachusetts Institute of Technology), M. Menetrier
(CNRS and Ecole Nationale Superieure de Chimie et Physique de Bordeaux), C.P. Grey (State University of New York at Stony Brook), C. Delmas
(CNRS and Ecole Nationale Superieure de Chimie et Physique de Bordeaux), and G. Ceder (Massachusetts Institute of Technology) |
4:45 | 118 |
Electrostatic Spray Deposition of Doped LiCoVO_4, a High Voltage Cathode Material for Li-ion Batteries - N. Van
Landschoot, E. Kelder, and J. Schoonman (Delft University of Technology) |
5:00 | 119 |
The Influence of Fe on the Structure and Electrochemical Properties of LiFe_xCo1-xVO4 - N. Van
Landschoot, E. Kelder, and J. Schoonman (Delft University of Technology) |
5:15 | 120 |
A Comparison of Vanadium Pentoxide Xerogels Made via the Vanadate and Vanadyl Tris(Alkoxide) Hydrolysis Routes - F.
Huguenin, R. Torresi (Universidade de Sao Paulo), G. Holland, and D. Buttry (University of Wyoming) |
5:30 | 121 |
Electrochemical Performance of Sol-Gel Synthesized LiFePO_4 in Lithium Batteries - M.
Doeff, R. Finones, and Y. Hu (Lawrence Berkeley National Laboratory) |
5:45 | 122 |
Reversible Lithium Intercalation into Vanadyl Phosphates Synthesized in Organic Solvent - B.
Azmi, T. Ishihara, H. Nishiguchi, and Y. Takita (Oita University) |
Tuesday October 22, 2002
Cathodes III
Co-Chairs: A. Manthiram and M. Thackeray
Time | Abs# | Title |
8:00 | 123 |
Characterization and Diagnostics of Li-ion Batteries with Natural Graphite and LiFePO4 - J. Shim, A. Sierra, and K. Striebel (Lawrence Berkeley National Laboratory) |
8:15 | 124 |
Structural Change of Li3CrTiO5 During Cycling - L. Zhang, H. Noguchi, and M. Yoshio (Saga University) |
8:30 | 125 |
Novel High-Energy Lithium Power Source Based on Molybdenum Oxide and Solid-Phase Inorganic Electrolyte - E.
Shembel, Y. Kalinushkin (Ener1, Inc.), A. Markevich, K. Kylyvnyk (Ukrainian State Chemical Technology University), T.
Pastushkin, P. Novak (Ener1, Inc.), and A. Nosenko (Ukrainian State Chemical Technology University) |
8:45 | 126 |
Li/Li2Sx Liquid Cathode Cell - A.
Gorkovenko, E. Tritenichenko, C. Skaggs, and V. Puglisi (Moltech Corporation) |
9:00 | 127 |
Low Temperature Performance of of Li/S Batteries - Y. Mikhaylik and J. Akridge
(Moltech Corporation) |
9:15 | 128 |
Elevated Temperature Performance of LiMn2-xMxO4 Electrodes (M = Li, Mg, Al, Zn) as a Function of Tetrahedral Site Occupancy - J.-S. Kim, J.
Vaughey, C. Johnson, and M. Thackeray (Argonne National Laboratory) |
9:30 | |
Thirty-Minute Intermission - |
10:00 | 129 |
Nanocrystalline Lithium Manganese Oxide Cathodes for Lithium-ion Batteries - D. Im and A. Manthiram (The University of Texas at Austin) |
10:15 | 130 |
MAS NMR Studies of Lithium Manganese Oxide with O2 Structure - E. Cairns,
Y.J. Lee (University of California), T. Eriksson, M. Doeff (Ernest Orlando Lawrence Berkeley National Laboratory), and J. Reimer (University of California) |
10:30 | 131 |
Electrochemical Lithium Reaction of Some First-row Transition-metal Spinel Mixed-oxides - R.
Alcantara, M. Jaraba, P. Lavela, J.L. Tirado (Universidad de Cordoba), J.C.
Jumas, and O.-F. Josette (Universite Montpellier II) |
10:45 | 132 |
Electrochemical Properties of Li1-xMn2-2xO4 Thin Film Cathodes - D. Singh (Swiss Federal Institute Of Technology), W.-S. Kim, V. Craciun (University Of Florida), H. Hofmann (Swiss Federal Institute Of Technology), and R. Singh (University Of Florida) |
11:00 | 133 |
Relationship between Cubic to Cubic Transition and Capacity Fade in Spinel Manganese Oxides - Y. Shin and A. Manthiram (The University of Texas at Austin) |
11:15 | 134 |
Charge-discharge Cycle Behavior of MgAl_2O4-doped LiMn2O4 Cathode Material for Li Ion Rechargeable Battery - N. Ozawa, K.
Donoue, Y. Kamitaka, and T. Yao (Kyoto University) |
11:30 | 135 |
Improved Spinel Lithium Manganese Oxide as Cathode for High Power Battery for HEV Application - J. Liu
(Argonne National Laboratory), K. Xu, T.R. Jow (Army Research Laboratory), and K. Amine
(Argonne National Laboratory) |
11:45 | 136 |
Modeling of Electrochemical Properties of LiMn2O4 Thin Film Cathodes - D. Singh, H. Hofmann (Swiss Federal Institute of Technology), and R. Singh (University Of Florida) |
Cathodes IV
Co-Chairs: E. Cairns and J. McBreen
Time | Abs# | Title |
2:00 | 137 |
Relationship between Structure, Magnetic Property, and Electrochemical Property after High Temperature Storage of Lithium Manganese Spinels - K. Hironori, S.
Hikari, K. Kenichi, K. Hiroyuki, T. Mitsuharu, T. Kuniaki (National Institute of Advanced Industrial Science and Technology), Y. Masao (Kobe University), K. Ryoji (Tokyo Institute of Technology), and K. Takashi (High Energy Accelerator Research Organization) |
2:15 | 138 |
Origin of the High-voltage (> 4.5V) Capacity in Spinel Manganese Oxides - Y. Shin and A. Manthiram (The University of Texas at Austin) |
2:30 | 139 |
Improved Cyclic Performance of Doped Spinel Li1+xZnyMn2-x-yO4 at elevated Temperature - H. Noguchi, H. Nakamura, X. Wang, S.
Shikimori, M. Zou, and M. Yoshio (Saga University) |
2:45 | 140 |
MnO2 Materials for Lithium Batteries Synthesized by the Electrochemical-Hydrothermal Method: Influence of Structural Parameters and Morphology on Electrochemical Properties - L. Hill, A.
Verbaere, and D. Guyomard (Institut des Materiaux Jean Rouxel) |
3:00 | 141 |
Nanostructured Amorphous Transition Metal Oxides as Lithium Intercalation Cathodes - J. John
Xu, G. Jain, and J. Yang (Rutgers, The State University of New Jersey) |
3:15 | 142 |
Development of Polymer Composite Cathode of DMcT-PAn Containing Carbon Nanoparticles for Lithium Battery - L. Xiao (Central South University), O.
Hatozaki, and N. Oyama (Tokyo University of Agriculture and Technology) |
3:30 | 143 |
Thermal Stability and Cell Performance of Al,Nb-Doped Ni-Co System Oxide Cathode - Y.
Isozaki, K. Kubo, S. Yamada, and M. Kanda (Toshiba Corporation) |
3:45 | 144 |
Combinatorial Synthesis of Li[Ni_xCo1-2xMnx]O2 (0 - A. Bonakdarpour and J. Dahn
(Dalhousie University) |
4:00 | 145 |
Preparation, Structure, and Thermal Stability of New NixCo1-2xMnx(OH)2 - S. Jouanneau and
J.R. Dahn (Dalhousie University) |
4:15 | |
Fifteen-Minute Intermission - |
4:30 | 146 |
Electrochemical Evaluation of xLi2TiO3(1-x)LiMn0.5Ni0.5O2 (0 - J.-S. Kim, C. Johnson, J.
Vaughey, A. Kropt, and M. Thackeray (Argonne National Laboratory) |
4:45 | 147 |
6Li MAS NMR and In Situ X-ray Studies of Lithium Nickel Manganese Oxides - W.-S. Yoon, C. Grey (State University of New York), X.-Q. Yang, and J. McBreen (Brookhaven National Lab.) |
5:00 | 148 |
Synthesis and Electrochemical Properties of Layered
Li(Ni,Mn,M')O_2-yFy (M'=Al,Co,Ti,0 - S.-H. Kang
(Argonne National Laboratory), Y.-K. Sun (Hanyang University), and K. Amine (Argonne National Laboratory) |
5:15 | 149 |
A Combinatorial Study Of LiMn_xNi2-xO4 Cathode Materials - J.
Whitacre, W. West, and R. Bugga (California Institute of Technology) |
5:30 | 150 |
In-situ XAS Investigation of LiCo0.15Mn1.85O4 Cathode Material during Charging and Discharging in Nonaqueous Solution -
B.J. Hwang, Y.-W. Tsai, Y.W. Wu (National Taiwan University of Science and Technology), and
J.F. Lee (Synchrotron Radiation Research Center) |
5:45 | 151 |
Characteristics on Solid-State Redox Reactions of Layered Type LiMn05Ni0502 for Li Ion Batteries - A. Ueda, K.
Uchitomi, and S. Aoyama (Hitachi Maxell Ltd.) |
Grand Ballrooms B and C, Main Level, Grand America Hotel
Poster Session
Co-Chairs: Z. Ogumi and E. Takeuchi
Time | Abs# | Title |
o | 152 |
The Structural and Electrochemical Properties of LiNiyTi1-yO2 Prepared by Wet Process -
J.W. Joeng and S.-G. Kang (Hoseo University) |
o | 153 |
Effects of an Imidazolium Imide Salt Addition to a Rechargeable Li/S Cell on Its Cycle Performance - S. Kim, Y. Jung, J. Kim, Y.
Choi, B. Jung, and H. Lim (Samsung SDI CO., LTD) |
o | 154 |
The Effect of Nano Sized Adsorbing Material On The Cycle Life of Sulfur Cathode for Rechargeable Li/S Battery - M.-S. Song, S.-C. Han, H.-S. Kim, J.-H. Kim
(KAIST), H.-J. Ahn (Gyeong Sang National University), and J.-Y. Lee (KAIST) |
o | 155 |
Synthesis and Electrochemical Properties of Olivine-type Cathode Materials Containing Fine Carbon for Lithium Batteries - M.
Kohzaki, Y. Ukyo (Toyota Central R and D Labs., Inc.), and M. Tabuchi (National Institute of Advanced Industrial Science and Technology) |
o | 156 |
Li and V MAS NMR, Ex Situ XRD Studies of the Electrochemical Behavior of Vanafates and Vanadyl Phosphates - N. Dupre
(SUNY at Stony Brook), J. Gaubicher (CNRS), C. Grey (SUNY at Stony Brook), D. Guyomard
(CNRS), M. Quarton (Universite Paris VI), and R. Siegel (CNRS) |
o | 157 |
Synthesis and Electrochemical Performance of Layered Li_1-xNax[Li0.1Ni0.2Co0.3Mn0.4]O2 Cathode Materials for Lithium Secondary Batteries - Y.-K. Sun and J.-H. Kim
(Hanyang University) |
o | 158 |
Enhancement of Structural Stability and Thermal Property of LiNi1-xCoxO2 by coating with Magnesium Oxide - C.-L. Tsai (Chung Hsing University), M.-H. Liu, J.-M. Chen (Industrial Technology Research Institute), and H.-C. Shih
(Tsing Hua University) |
o | 159 |
Effects of Cyclability of Cl,Al-doped and Cl, Al-codoped Spinel LiMn2O4 - W. Zhu, X. Fan, F. Pan, S. Zhang, and Z. Huang
(Chongqing University) |
o | 160 |
The Fabrication of LiMn2O4 Thin Films from Diethanolamine-stabilized Li/Mn-acetate Solution -
H.S. Jung, J.-Y. Kim, K.S. Hong, H.-J. Jung, and S.-K. Joo (Seoul National University) |
o | 161 |
Initial Capacity Loss Suppression of SnS Anode by Chemical Reduction - T. Momma, H. Mukaibo, A. Yoshizawa, and T. Osaka (Waseda University) |
o | 162 |
Effect of SnO2 Nanoparticle on Charge Discharge Properties in Li Rechargeable Battery - H.-J. Ahn, S.-J. Moon, J.-Y. Park, and Y.-E. Sung (Kwangju Institute of Science and Technology) |
o | 163 |
Electrodeposition of SnSb and Sn Nanostructures as Anode Materials of Lithium-Ion Batteries - C. Jin-Ming, H. Chien-Te, L. Hing-Hsiao, H. Hsiu-Wen, and S. Han-Chang (Industrial Technology Research Institute) |
o | 164 |
Silicon-Based Nanocomposite Anodes for Lithium Ion Batteries - J. Miller, L. Wang, M. Heath, M. Fay, C. Xu, and C. Silkowski (T/J Technologies, Inc.) |
o | 165 |
Studies on the Effects of Additive Pt in Lithium –Ion Battery - K. Woo-Seong (K-JIST), P. Dong-won, C. Kwang-il, P. Jong-Geun (Chonnam National University), S. Yung-Eun (K-JIST), and C. Yong-Kook (Chonnam National University) |
o | 166 |
The LixVPn4 (Pn=P,As) Ternary Phases: Rigid Networks for Lithium Insertion/Deinsertion - M.-L. Doublet, F. Lemoigno, F. Gillot, L. Monconduit (Universite Montpellier 2), M. Morcrette (Universite de Picardie Jules Verne), and F. Favier (Universite Montpellier 2) |
o | 167 |
Surface Modification of Graphite Particles by Reactive Induction Plasmas - M. Kurihara, S. Maruyama, K. Ohe (TDK Corporation), H. Tanaka, Y. Moriyoshi (Hosei University), T. Ishigaki, and T. Ishigaki (National Institute for Materials Science) |
o | 168 |
Surface-Modified Graphite Anode for Improving Charge-Discharge Performance - F.-T. Wang, M.-H. Liu, and J.-M. Chen (Industrial Technology Research Institute) |
o | 169 |
Effective SEI Formation at the Step Edges of a Graphite Negative Electrode in the Electrolyte Solution Containing O2 - O. Matsuoka, A. Hiwara, T. Hayashi, S. Ono, and S. Yamamoto (Mitsui Chemicals,Inc.) |
o | 170 |
A New Type of Self-Adhesive Polymer in Lithium Battery Applications - W. Mao-Sung, W. Sheng-Feng, J. Yih-Song, and C. Pin-Chi Julia (Industrial Technology Research Institute) |
o | 171 |
Preparation Condition of Co-continuous Polymer Blend Gel Electrolyte with IPN System - T. Momma, H. Ito, T. Osaka (Waseda University), and S. Passerini (Electrochemical Energy Conversion Division) |
o | 172 |
Influences of Cross-linking Density of the Polyether-based Electrolytes Doped with LiN(SO_2CF3)2 on Electrochemical and Thermal Properties - T. Bando, Y. Aihara (Yuasa Corporation), K. Hayamizu, and E. Akiba (National Institute of Advanced Industrial Science and Technology) |
o | 173 |
NMR Characterization of Polymer Nanocomposites Used in Lithium Ion Cells - G. Sandi, R.E. Gerald, L.J. Smith, and M.-L. Saboungi (Argonne National Laboratory) |
o | 174 |
Effects of Initiator Activity of Polymerization on Performance of a Gel-polymer Li-ion Cell - J.Y. Lee, E. Song, and H.S. Lim (Samsung SDI Co.,Ltd) |
o | 175 |
Inter-Electrode In Situ Concentration Cartography In Lithium/Polymer Electrolyte/Lithium Cells - A. Teyssot, C. Belhomme (CNRS), R. Bouchet (Universite de Provence), M. Rosso (CNRS), S. Lascaud (EDF), and M. Armand (University of Montreal) |
|
795 |
Effect of Silica Nanoparticles on PEO-LiTFSI Polymer Electrolytes - Y. Li, J. Yerian, P. Fedkiw, and S. Khan (North Carolina State University) |
Wednesday October 23, 2002
Imperial Ballroom A, Main Level, Grand America Hotel
Anodes I
Co-Chairs: Z. Ogumi and M. Winter
Time | Abs# | Title |
10:00 | 176 |
Anode Performance and Matrix Conductivity in Lithium Battery Electrolytes - K. Striebel, J. Shim (Lawrence Berkeley National Laboratory), C.-W. Wang, and A.M. Sastry (University of Michigan) |
10:15 | 177 |
One-dimensional Rietveld Analysis of Layered Structures of Lithium-graphite Intercalation Compounds - N. Ozawa, T. Niimi, T. Aikawa, and T. Yao (Kyoto University) |
10:30 | 178 |
Mathematical Modeling of SEI Formation in Li-Ion Cell Anodes - P. Ramadass, V. Subramanian, H. Ploehn, and R. White (University of South Carolina) |
10:45 | 179 |
Effects of Co-solvents on Surface Film Formation on a Graphite Negative Electrode in Lithium-Ion Batteries - S.-K. Jeong, Y. Iriyama, T. Abe (Kyoto University), M. Inaba (Doshisha University), and Z. Ogumi (Kyoto University) |
11:00 | 180 |
Theoretical Studies of SEI Layer Formation and Growth - P. Balbuena and Y. Wang (University of South Carolina) |
11:15 | 181 |
Solvated Lithium-Ion Transfer at Interface between Graphite and Electrolyte - Z. Ogumi, T. Abe, H. Fukuda, and Y. Iriyama (Kyoto University) |
11:30 | 182 |
Electrochemical Analysis of Lithiated Graphite Anodes - M. Verbrugge (General Motors Research and Development Center) and B. Koch (General Motors Advanced Technology Vehicles) |
11:45 | 183 |
The Effect of Electrolyte Additives Upon the Kinetics of Lithium Intercalation/De-Intercalation at Low Temperatures - M.C. Smart, B.V. Ratnakumar, K. Chin, W. West, and S. Surampudi (California Institute of Technology) |
Anodes II and Electrolytes I
Co-Chairs: S. Vucson and S. Khan
Time | Abs# | Title |
2:00 | 184 |
The Anomalous Reaction of Li with Sn as Studied by In Situ Atomic Force Microscopy - L. Beaulieu, T. Hatchard, J. Dahn, and S. Beattie (Dalhousie University) |
2:15 | 185 |
Combinatorial Electrochemical Study of the SiAlSn Ternary System - T. Hatchard, M. Fleischauer, and J. Dahn (Dalhousie University) |
2:30 | 186 |
Phase Transitions in Lithiated Intermetallic Anodes for Lithium batteries - In Situ XRD Studies - L. Fransson, K. Edstrom (Uppsala University), J. Vaughey, and M. Thackeray (Argonne National Laboratory) |
2:45 | 187 |
The Reaction of Li with Patterned Si0.67Sn0.33 Studied by In Situ Atomic Force Microscopy - L. Beaulieu, T. Hatchard, and J. Dahn (Dalhousie University) |
3:00 | 188 |
Mesoporous Anode Materials for Lithium Batteries - V. Subramanian, E. Cannon, and R. Bobba (Southern University) |
3:15 | 189 |
The Electrochemistry of Germanium Nitride with Lithium - N. Pereira (Teclcordia Technologies), M. Balasubramanian (Brookhaven National Laboratories), L. Dupont (Universite de Picardie Jules Verne), L. Klein (Rutgers University), and G. Amatucci (Teclcordia Technologies) |
3:30 | 190 |
Outstanding Electrochemical Performance of Li3N - P.P. Prosini and F. Cardellini (ENEA) |
3:45 | 191 |
Exact Solution for Contact and Top-Layer Resistivity in Two-Layer Electrodes: Applications for Li-ion Anodes - C.-W. Wang, A.M. Sastry (University of Michigan), K.A. Striebel, and J. Shim (Lawrence Berkeley National Laboratory) |
4:00 | |
Thirty-Minute Intermission - |
4:30 | 192 |
Polymer - Silicate Nanocomposites : Electrolytes for Lithium Polymer Batteries - M. Kurian, M. Galvin (University of Delaware), P. Trapa, and A. Mayes (Massachusetts Institute of Technology) |
4:45 | 193 |
Role of Monomer in the Reactions of Crosslinkable Fumed-Silica Based Electrolyte - J. Yerian, P. Fedkiw, and S. Khan (North Carolina State University) |
5:00 | 194 |
Nanocomposites Polymer Electrolytes with Improved Machanical Properties - J.Y. Sanchez, F. Alloin, A. Azizi-Samir (LEPMI), A. Dufresne, M. Paillet (CERMAV), and J.Y. Cavaille (GEMPPM) |
5:15 | 195 |
Anionic/PEO Functionalized Silsesquioxanes as Single Ion Conductors for Lithium Batteries - P. Maitra, H. Zhang, J. Zhang, and S. Wunder (Temple University) |
5:30 | 196 |
Raman Investigation on PEO-LiBETI Polymer Electrolytes - S. Passerini (ENEA - IDROCOMB), C. Capiglia, N. Imanishi, and Y. Takeda (Mie University) |
5:45 | 197 |
Study on Flexible Lithium Ion Polymer Rechargeable Cells Under Applied Mechanical Loading - Q. Chen and D.C.C. Lam (The Hong Kong Univetsity of Science and Technology) |
Thursday October 24, 2002
Electrolytes II
Co-Chairs: K. Amine and D. Scherson
Time | Abs# | Title |
8:30 | 198 |
Functionalized Silsesquioxanes as Wide Temperature Range Electrolytes for Lithium Batteries - P. Maitra, J. Zhang, and S. Wunder (Temple University) |
8:45 | 199 |
The Transport Number of Ionic Species in Lithium Electrolyte Solution Coexisting with Porous Solid Materials - M. Minoru, I. Fumio, K. Akihiko, and D. Shigehito (Kobe University) |
9:00 | 200 |
Functional Electrolyte II: Additives for Suppression of the Electrolyte Decomposition - J. Gong, T. Tsumura, H. Nakamura, M. Yoshio (Saga University), H. Yoshitake, and K. Abe (Ube Industries, Ltd) |
9:15 | 201 |
Studies of Electrolyte Oxidation Using In-situ Infrared Reflection Absorption Spectroscopy - X. Zhang and P. Ross (Lawrence Berkeley Lab) |
9:30 | |
Thirty-Minute Intermission - |
10:00 | 202 |
A Boron-based Salt for Li-Ion Electrolytes - K. Xu, S. Zhang, J. Allen, and R. Jow (U.S. Army Research Laboratory) |
10:15 | 203 |
Application of LiBOB as an Electrolyte Salt For 4 V Class Lithium Ion Rechargeable Cells - T. Fujii, M. Takehara, and M. Ue (Mitsubishi Chemical Corporation) |
10:30 | 204 |
Non-flammable Lithium Ion Electrolytes Based on Phosphorus (V) Compounds - K. Xu, M. Ding, S. Zhang, J. Allen, and R. Jow (U.S. Army Research Laboratory) |
10:45 | 205 |
Novel Imidazolium Salt with Low Reduction Potential - K. Hayashi, Y. Nemoto, K. Akuto, and Y. Sakurai (NTT Corporation) |
11:00 | 206 |
Behavior of Li Ion Cells in High-intensity Radiation Environments - B.V. Ratnakumar, M.C. Smart, L. Whitcanack, B. Davies, F. Deligiannis, and S. Surampudi (California Institute of Technology) |
Lithium Ion Cells
Co-Chairs: A.R. Landgrebe and B. Popov
Time | Abs# | Title |
2:00 | 207 |
In-Situ, Time Resolved Raman Microspectrotopography of an Operating Lithium Ion Battery - Y. Luo, W.-B. Cai, X.-K. Xing, and D. Scherson (Case Western Reserve University) |
2:15 | 208 |
Relating Power Fade to Electrochemical Impedance Spectroscopy on the Advanced Technology Development Program Cells - J.P. Christophersen, D.F. Glenn, C.G. Motloch, R.B. Wright, C.D. Ho (Idaho National Engineering and Environmental Laboratory), V.S. Battaglia (Argonne National Laboratory), and T.Q. Duong (US DOE) |
2:30 | 209 |
Study on the Effects of Discharge Rates on the Capacity Fade of Lithium-ion Battery - G. Ning (The University of South Carolina) |
2:45 | 210 |
High Capacity 3-D "On-Chip" Microbattery - V. Yufit, M. Nathan (Tel-Aviv University), E. Peled, D. Golodnitsky, Y. Lavi (Tel Aviv University), and E. Sverdlov (Tel-Aviv University) |
3:00 | 211 |
Implementing a Thick-Film Composite Li-Ion MicroCathode using Carbon Nanotubes as a Conductive Filler - Q. Lin and J. Harb (Brigham Young University) |
3:15 | 212 |
Performance of Commercial Li-ion Batteries Cycled with a Rapid Charging Protocol - G. Sikha, P. Ramadass, B. Haran, R. White, and B. Popov (University of South Carolina) |
3:30 | 213 |
High Rate Lithium-ion Cells - R. Gitzendanner, F. Puglia, S. Iaconnetti, and S. Santee (Lithion, Inc. / Yardney Technical Products, Inc.) |
3:45 | 214 |
Performance and Life Testing of 12 Ah Saft America HP-12 Lithium Ion Cells - J. Belt, C. Motloch, C. Ho (Idaho National Engineering and Environmental Laboratory), G. Chagnon (Saft America Inc.), T. Duong (U.S. Department of Energy), and T. Miller (Ford Motor Company) |
4:00 | |
Fifteen-Minute Intermission - |
4:15 | 215 |
Quantitative Estimation of Capacity Fade of Sony 18650 cells Cycled at Elevated Temperatures - B. Popov, P. Ramadass, and B. Haran (University of South Carolina) |
4:30 | 216 |
Thermal Reactions in Li-ion Cells - P. Roth, C. Crafts, and D. Doughty (Sandia National Laboratories) |
4:45 | 217 |
Thermal Analysis on Lithium-Ion Batteries for Optimal Charging Current Profile - A. Sato and M. Hiraiwa (Chubu University) |
5:00 | 218 |
Investigations of the Exothermic Reactions on Li=Ion Cells - H. Yang, H. Bang (Illinois Institute of Technology), K. Amine (Agronne National Laboratory), and J. Prakash (Illinois Institute of Technology) |
5:15 | 219 |
Characterization of 190-Ah Lithium-ion JSB Cells Using Isothermal - Calorimetric Measurements - B. Nguyen (The Boeing Company) |
5:30 | 220 |
Sealing Improvement for Lithium Polymer Cell Package by Tab Surface Treatment - H. Wang, C. Castledine, J. Kaschmitter, J. Farmer, and G. Nagarajan (SpectraPower, Inc.) |
5:45 | 221 |
Storage Characteristics of Li-Ions for Future NASA/JPL Missions to the Oute rPlanets - K.B. Chin, M.C. Smart, B.V. Ratnakumar, L.D. Whitcanack, E.D. Davies, M.D. Rodriguez, F. Deligiannis, and S. Surampudi (Calfornia Institute of Technology) |
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