221st ECS Meeting - Seattle, Washington

May 6 - May 10, 2012

PROGRAM INFORMATION
 

B1 - Batteries and Energy Technology Joint General Session
 

Monday, May 7, 2012

Room 608, Level 6, Washington State Convention Center

High Energy Systems

Co-Chairs: A. Manivannan and S. Narayan
TimeProgr#Title and Authors
08:00   151   In Situ Fabrication of Porous Carbon Supported α-MnO2 Nanoparticles at Room Temperature: Application for Rechargeable Li-Air Battery J. Lu, Y. Qin, Y. Ren, T. Wu, and K. Amine (Argonne National Laboratory)
08:20   152   Graphene Oxide-Sulfur Nanocomposites for Advanced Lithium/Sulfur Cell Cathodes L. Ji, M. Rao, H. Zheng, L. Zhang (Lawrence Berkeley National Laboratory), Y. Li, W. Duan (Tsinghua University), J. Guo, E. Cairns, and Y. Zhang (Lawrence Berkeley National Laboratory)
08:40   153   Solvent Saturation and Air Operation of Li Air Batteries M. P. Karulkar and J. Adams (Ford Motor Company)
09:00   154   A Quantum Chemical Examination of the Basic Reactions Occurring at a Sulfur Anode A. T. Yeates (Air Force Research Laboratory)
09:20   155   Computational Modeling of Transport Limitations in Li-Air Batteries E. M. Ryan (Boston University), K. Ferris, A. Tartakovsky, and M. Khaleel (Pacific Northwest National Laboratory)
09:40 Intermission (20 Minutes)
10:00   156   A Novel Sodium-Ion Rechargeable Battery M. Minakshi, P. Singh (Murdoch University), and M. Ionescu (Australian Nuclear Science & Technology Organization)
10:20   157   Spinel NixCo2-xO4 as a Bifunctional Air Electrode for Zinc Air Batteries X. Yuan (Institute for Fuel Cell Innovation), W. Qu, X. Zhang, P. Yao, J. Fahlman, H. Wang, and H. Li (IFCI)
10:40   158   Li-Air Rechargeable Batteries Using Au-Pd Supported Mesoporous Metal Oxides Cathode for Air Electrode A. K. Thapa (Conn Center for Renewable Energy Research), M. K. Sunkara (University of Louisville), G. Sumanasekera (Conn Center for Renewable Energy Research, University of Louisville), S. Ida, and T. Ishihara (Kyushu University)
11:00   159   Small-Angle Neutron Scattering Study of Redox-Active Organic Radical Polymers for Organic Rechargeable Battery S. Kim, C. Soles (Polymers Division, National Institute of Standards and Technology), T. Suga, and H. Nishide (Department of Applied Chemistry, Waseda University)
11:20   160   Performance of Blended TiS2/Sulfur/Carbon Cathodes in Lithium-Sulfur Cells A. Garsuch, S. Herzog, L. Montag, A. Krebs, and K. Leitner (BASF SE)
11:40   161   Study of the PbO2/Pb2+ Cycling in Methanesulfonic Acid Medium for Soluble Lead(II) Flow Battery Application A. Oury, A. Kirchev (CEA/INES), and Y. Bultel (LEPMI)
 

Room 609, Level 6, Washington State Convention Center

Cathodes for Lithium Ion Batteries 1

Co-Chairs: Daiwon Choi and Chunsheng Wang
TimeProgr#Title and Authors
08:00   162   In Situ TEM Investigation of Lithiation/Delithiation in LiFePO4 Y. Zhu (University of Maryland College Park), J. Wang (University of Pittsburgh), Y. Liu (Sandia National Laboratories), C. Wang (University of Maryland), and J. Y. Huang (Sandia National Laboratories)
08:20   163   Synthesis and Characterization of Ti Doped Lithium Iron Phosphate H. Fang, G. Liang, and H. Arava (Sam Houston State University)
08:40   164   Dispersant and Mixing Sequence Effects in LiFePO4 Processing J. Li, B. Armstrong, J. Kiggans, C. Daniel, and D. Wood (Oak Ridge National Laboratory)
09:00   165   Polyanion Type Cathodes for Stationary Lithium Ion Batteries D. Choi, J. Xiao, Y. Choi, W. Wang, W. Xu, J. Liu, G. Graff, J. Zhang, and Z. Yang (Pacific Northwest National Laboratory)
09:20   166   First Report of Pn-Li2MnSiO4 Synthesized by Ion-Exchange H. Duncan, A. Kondamreddy, P. Mercier, Y. Le Page, M. Couillard, P. Whitfield, Y. Abu-Lebdeh, and I. Davidson (National Research Council Canada)
09:40 Intermission (20 Minutes)
10:00   167   Multistage Li Insertion and Extraction Structure Analysis of Li Inserted γ-Fe2O3 S. Park, S. Ito, and T. Yao (Kyoto University)
10:20   168   Effects of Surface Modification by Reduced Graphene Oxide on the Electrochemical Properties of LiFePO4 Cathode Material for Li-Ion Batteries W. Kim (KAIST), W. Ryu, D. Han, S. Lim, and H. Kwon (Korea Advanced Institute of Science and Technology)
10:40   169   Mathematical Modeling of LiFePO4 Electrodes with Li Transport Accounting for Thermodynamic Nonidealities M. Farkhondeh (University of Picardie) and C. Delacourt (Université de Picardie Jules Verne)
11:00   170   FeSO4F: A New Positive-Electrode Material for Lithium Metal Polymer Batteries M. Ati (Université de Picardie Jules Verne), M. Sougraty (University of Montpellier 2), N. Recham (Université de Picardie Jules Verne), G. Rousse (Université Pierre et Marie Curie), J. Jumas (University of Montpellier 2), and J. Tarascon (Université de Picardie Jules Verne)
11:20   171   An Update on Synthesis, Structure and Electrochemical Performances of LiFeSO4F M. Ati (Université de Picardie Jules Verne), M. Sougraty (University of Montpellier 2), B. Melot, N. Recham, C. Delacourt (Université de Picardie Jules Verne), J. Jumas (University of Montpellier 2), and J. Tarascon (Université de Picardie Jules Verne)
11:40   172   Lithium Metal Fluoro/Oxy-Phosphate as Positive Electrode Materials for Lithium-Ion Batteries J. Ateba Mba (ICMCB/LRCS/CNRS), C. Masquelier (LRCS/CNRS/UPJV), E. Suard (ILL), and L. Croguennec (ICMCB/LRCS/CNRS)
 

Room 608, Level 6, Washington State Convention Center

Cathodes for Lithium Ion Batteries 2

Co-Chairs: Ram Katiyar and Ilias Belharouak
TimeProgr#Title and Authors
14:00   173   Aging Effects in Li(NixCoyMnz)O2 and LiMn2O4 Mixed Cathodes for Lithium Ion Batteries K. J. Rhodes, M. Dearth, L. Liu, and R. Kudla (Ford Motor Company)
14:20   174   Structural and Electrochemical Properties of ZnO Treated 0.5Li2MnO3-0.5LiNi0.5Mn0.5O2 Composite Cathode G. Singh, A. Kumar, R. Thomas (University of Puerto Rico), A. Manivannan (U.S. Department of Energy), and R. Katiyar (University of Puerto Rico)
14:40   175   Synthesis and Electrochemical Characteristics of LiNi0.5Mn1.5O2 and LiNi0.66Co0.17Mn0.17O2 Cathode Materials for Lithium-Ion Batteries V. Chitturi, Y. Ishikawa, and R. Katiyar (University of Puerto Rico)
15:00   176   Quasi In-Situ Surface Characterization of the High Voltage Li-Excess Li[LixNi1/3-2x/3Mn2/3-x/3]O2 cathode materials: An Investigation of the First Cycle Irreversible Capacity Loss K. J. Carroll (University of California, San Diego), C. Fell (University of Florida), M. Chi, G. Veith (Oak Ridge National Laboratory), S. Calvin (Sarah Lawrence Collge), N. Dudney (Oak Ridge National Laboratory), and S. Meng (University of California, San Diego)
15:20   177   Study of Core-Shell Li1+xMn2-xO4/LiAlxMn2-xO4 Nanomaterial as High Energy Density Cathode Material for Li-Ion Battery L. Xu, C. Kim, and J. Cabana (Lawrence Berkeley National Laboratory)
15:40 Intermission (20 Minutes)
16:00   178   High Energy Cathode with Al2O3 Coating Formed by Atomic Layer Deposition H. Wu (Argonne National Laboratory), X. Liang (University of Colorado), and K. Amine (Argonne National Laboratory)
16:20   179   Understanding of Phase Formation, Thermal Stability, and Decomposition of Cathode Material LiNi0.5Mn1.5O4 in Oxygen-Deficient and Air Conditions by In Situ Neutron Diffraction L. Cai, K. An, Z. Liu, R. Mills, and C. Liang (Oak Ridge National Laboratory)
16:40   180   Concentric Ring Architected Cathode Materials for Lithium Batteries I. Belharouak, D. Wang (Argonne National Laboratory), G. Zhou (State University of New York at Binghamton), and K. Amine (Argonne National Laboratory)
 

Room 609, Level 6, Washington State Convention Center

Large Scale Energy Storage Systems

Co-Chairs: Vincent Sprenkle and Gary Yang
TimeProgr#Title and Authors
14:00   181   Planar Sodium-Metal Halide Batteries for Energy Storage G. G. Tao and N. Weber (Materials and Systems Research Inc.)
14:20   182   A Novel Tubular Solid Oxide Redox Flow Battery for Stationary Energy Storage N. Xu, X. Li, X. Zhao, Y. Gong, and K. Huang (University of South Carolina)
14:40   183   Supported β" Electrolyte Development for Intermediate Temperature Sodium-Metal Halide Batteries V. L. Sprenkle, D. Reed, N. Canfield, J. Bonnett (Pacific Northwest National Laboratory), R. Pearson (University of Denver), J. Mansurov, and Z. Yang (Pacific Northwest National Laboratory)
15:00   184   Regenerative Solar Energy Storage via Photocatalytic Redox Reaction D. Liu and F. Liu (The University of Texas at Arlington)
15:20   185   An Electrochemical Study of Vanadium Redox Reactions on Microfluidic Fuel Cell Electrodes J. Lee, J. Hong, and E. Kjeang (Simon Fraser University)
15:40 Intermission (20 Minutes)
16:00   186   The Effects of Temperature on Electrochemical Performance of Sodium-Nickel Chloride Batteries X. Lu, G. Li, J. Kim, J. P. Lemmon, V. Sprenkle, and Z. Yang (Pacific Northwest National Laboratory)
16:20   187   Intermediate Temperature, Planar, Solvent-Based Sodium Sulfur Battery B. W. Kirby, X. Lu, V. L. Sprenkle, and Z. Yang (Pacific Northwest National Laboratory)
16:40   188   Low Melting Temperature Secondary Electrolytes for Intermediate Temperature Sodium-Metal Halide Batteries G. Li, X. Lu, J. Kim, J. Lemmon, V. L. Sprenkle, and Z. Yang (Pacific Northwest National Laboratory)
 

Tuesday, May 8, 2012

Room 608, Level 6, Washington State Convention Center

Supercapacitors

Co-Chairs: Ashok K. Shukla and P. Kumta
TimeProgr#Title and Authors
08:00   189   Spectroscopic Study of SEI Layer Formation on Negative Electrode for Lithium-Ion Capacitor G. Gourdin, J. Collins (University of Massachusetts, Boston), P. H. Smith, T. Jiang, T. Tran (Naval Surface Warfare Center), and D. Qu (University of Massachusetts, Boston)
08:20   190   Li-Ion Capacitors Using Carbon-Carbon Electrodes W. Cao and J. P. Zheng (Florida State University)
08:40   191   High Performance Micro-supercapacitors based on Interdigital Graphene/CNT Hybrid Electrodes M. Beidaghi, K. Gharibi, and C. Wang (Florida International University)
09:00   192   Poly(3,4-Ethylenedioxythiophene)-Graphene Composite Electrodes For Solid-State Supercapacitors with Ionic Liquid Gel Polymer Electrolyte G. P. Pandey and A. Rastogi (Binghamton University, State University of New York)
09:20   193   Facile CVD Derived Transition Metal Oxide and Doped Transition Metal oxide/CNT Heterostructures for Supercapacitor Applications P. H. Jampani (University of Pittsburgh), A. Manivannan (U.S. Department of Energy), and P. N. Kumta (University of Pittsburgh)
09:40 Intermission (20 Minutes)
10:00   194   Mechanistic and Design Aspects of Transition Metal Nitride Based Supercapacitors P. Pande, A. Sleightholme, P. Rasmussen, and L. Thompson (University of Michigan)
10:20   195   Nano V2O5-Carbon Composites as Electrodes for Hybrid Supercapacitors A. S. Prakash, M. Sathiya, K. Ramesha (Central Electrochemical Research Institute), and A. K. Shukla (Indian Institute of Science)
10:40   196   Electrochemical Capacitors Employing Zeolite Templated Carbons: Temperature Effects in a Variety of Electrolytes Y. Korenblit, A. Kajdos (Georgia Institute of Technology), A. Kvit (University of Wisconsin - Madison), J. Jagiello (Micromeritics Instrument Corp), and G. Yushin (Georgia Institute of Technology)
11:00   197   Investigation of Self-Discharge Caused by Carbon Surface Groups in Carbon Electrode, Aqueous Electrolyte Electrochemical Capacitors A. M. Oickle and H. Andreas (Dalhousie University)
11:20   198   Carbon Nanoarchitecture-Supported Li-Mn-Spinel Oxides for High-Rate Li-Ion Batteries and Electrochemical Capacitors J. W. Long, M. Sassin (U.S. Naval Research Laboratory), S. Greenbaum (Hunter College), A. Mansour (Naval Surface Warfare Center, Carderock Division), R. Maloney (Michigan State University), B. Hahn (U.S. Naval Research Laboratory), K. Pettigrew (Nova Research, Inc.), and D. Rolison (U.S. Naval Research Laboratory)
 

Room 609, Level 6, Washington State Convention Center

Anodes for Lithium Ion Batteries 1

Co-Chairs: Khalil Amine and William West
TimeProgr#Title and Authors
08:00   199   Mesoporous TiO2/C Nanocomposite as a Superior Anode Material for High Rate Lithium Ion Batteries L. Shen, M. Zhang, E. Uchaker (University of Washington), X. Zhang (Nanjing University of Aeronautics and Astronautics), and G. Cao (University of Washington)
08:20   200   Fabrication and Characteristics of Nanostructured Si Anode for Lithium-Ion Batteries X. Sun, Z. Yao, K. Chu, Y. Zhuang, and H. Huang (Wright State University)
08:40   201   Surface Treatment to Improve Li4Ti5O12 Performance at High Temperature Aging Y. Qin (Argonne National Laboratory), Z. Chen (Argonne National Lab), and K. Amine (Argonne National Laboratory)
09:00   202   Synthesis of Coherent Porous Carbon/SnO2 Nanocomposites at Large-Scale for Efficient Lithium-Ion Intercalation M. Zhang, L. Shen, E. Uchaker (University of Washington), T. Wang (Hunan University), and G. Cao (University of Washington)
09:20   203   Improved Lithium Cyclability and Storage in SnO2 Using Structural Spacers and Extended Carbon Structures K. Shiva and A. J. Bhattacharyya (Indian Institute of Science)
09:40 Intermission (20 Minutes)
10:00   204   Nanostructured Ion Beam-Modified Ge Films for High Capacity Li-Ion Battery Anodes N. G. Rudawski, B. L. Darby, B. R. Yates (University of Florida), R. G. Elliman (Autralian National University), and K. S. Jones (University of Florida)
10:20   205   The Effect of Ion Beam-Mixing on Deposited Si Anodes for High Capacity Li Ion Batteries K. S. Jones, N. G. Rudawski (University of Florida), and R. G. Elliman (Autralian National University)
10:40   206   On the Performance of TiO2 Nanotubes and Its Derivatives as Anode Materials for Li-Ion Microbatteries N. Kyeremateng, P. Knauth, and T. Djenizian (Aix-Marseille University)
11:00   207   The Improved Electrochemical Properties of Silicon Thin Film Anodes Using Boron Doped Fullerene C60 as Coating Material in Lithium Secondary Batteries A. Arie (Parahyangan Catholic University) and J. Lee (Korea Institute of Science and Technology)
11:20   208   Surface Modification and Electrochemical Performances of Silicon-Based Film Anodes for Lithium-Ion Batteries W. Choi, J. Kim (Korea Institute of Science and Technology), D. Byun (Korea University), and J. Lee (Korea Institute of Science and Technology)
11:40   209   Processing of Silicon Anodes by Aerosol Jet Printing M. Schmerling, I. Wirth, and C. Kügeler (Fraunhofer for Manufacturing Technology and Advanced Materials)
 

Room 608, Level 6, Washington State Convention Center

Anodes for Lithium Ion Batteries 2

Co-Chairs: P.Kumta and Daiwon Choi
TimeProgr#Title and Authors
14:00   210   Anode Materials with Non-carbon Coating for Stable and High Rate Li-ion Batteries W. Xu, W. Wang, F. Ding, D. Choi, X. Chen, X. Li, C. Wang, J. Xiao, Z. Nie, Z. Yang, and J. Zhang (Pacific Northwest National Laboratory)
14:20   211   Electro-Deposition of Amorphous Silicon Anodes Exhibiting High Reversible Capacity and Cycling Stability for Lithium-Ion Batteries R. Epur, F. Beck (University of Pittsburgh), A. Manivannan (U.S. Department of Energy), and P. N. Kumta (University of Pittsburgh)
14:40   212   Embedded Si Nano Wire Anode for Lithium-Ion Secondary Cells J. Cho, J. Moon (MK Electron Co,), S. Son (Seoul National University), S. Moon, C. Lee, Y. Kim (Samsung SDI), S. Lee (University of Colorado at Boulder), and K. Oh (Seoul National University)
15:00   213   Replacement of Metal Current Collectors with Graphene Nanoplatelets in Advanced Lithium Ion Battery Electrodes A. Monga and L. Drzal (Michigan State University)
15:20   214   LiFeTiO4 with Tunnel Structure as a Model System for Multiple Li Cycling Cathode Material S. R. Bruno, C. Blakely, and V. V. Poltavets (Michigan State University)
15:40 Intermission (20 Minutes)
16:00   215   First-Principles Study of Li Absorption in Single Layer Graphene, Few Layer Graphenes, and Bulk Graphite E. Lee and K. Persson (Lawrence Berkeley National Laboratory)
16:20   216   Sponge-like Porous Carbon/Tin Composite Anode Materials for Lithium Ion Batteries Y. Xu and C. Wang (University of Maryland)
16:40   217   Intermetallic FeSn5 Phase: A New Anode Improves Lithium Ion Battery Performance W. Han and X. Wang (Brookhaven National Laboratory)
17:00   218   Electrochemical Performance of Sn-Co Alloy Electrode Deposited on Porous Cu Foam for Li-Ion Batteries D. Nam, R. Kim, and H. Kwon (Korea Advanced Institute of Science and Technology)
17:20   219   CMK-3 Carbon Rods with Different Sizes as Anode Materials in Li-Ion Battery M. Kim, J. Park, and J. Yu (Korea University)
17:40   220   All-Solid Thin-Filmed Li-Ion Rechargeable Battery with Aligned Carbon Nanotube Anode M. Baba (Iwate University)
 

Room 609, Level 6, Washington State Convention Center

Fuel Cell Catalysts

Co-Chairs: S. Narayan and G. K. Surya Prakash
TimeProgr#Title and Authors
14:00   221   Electrochemical Properties of Pt-Zr Extended Thin Films on High Surface Area NSTF Supports C. C. Hays, P. Bahrami, M. Errico, and J. G. Kulleck (California Institute of Technology)
14:20   222   Electrocatalytic Properties of Au/Pd Core/Shell Nanostructured Nanoparticles toward Formic Oxidation C. Hsu, C. Huang, Y. Hao, and F. Liu (The University of Texas at Arlington)
14:40   223   (Ir,Sn,Nb)O2, (Ir,Sn)O2:F and (Ru,Sn)O2:F Thin Film Anode Electro-Catalysts with Reduced Noble Metal Content for PEM Based Water Electrolysis K. S. Kadakia, M. K. Datta (University of Pittsburgh), A. Manivannan (National Energy Technology Laboratory), and P. N. Kumta (University of Pittsburgh)
15:00   224   More Durable Electrocatalysts for Efficient Formic Acid Oxidation G. Prakash (University of Southern California), F. Krause (Loker Institute, USC), and G. Olah (Loker Hydrocarbon Research Institute, USC)
15:20   225   Electrocatalysis of Oxygen Reduction at M-Nx Based Non-Noble Metal Centers: Investigation of Active Site Structure and Function U. Tylus, N. Ramaswamy, Q. Jia, and S. Mukerjee (Northeastern University)
15:40 Intermission (20 Minutes)
16:00   226   Multiscale Modeling of Electrochemical Double Layer Formation on Pt Electrodes Covered by Nafion A. A. Franco (CEA), Y. Suzue (Nissan Motor Co., Ltd), R. De Morais, A. Kachmar (CEA), T. Mashio, A. Ohma, and K. Shinohara (Nissan Motor Co., Ltd.)
16:20   227   Complexed Sol-Gel (CSG) Approach to Highly Stable Pt-Ru Anode Electro-Catalyst for Direct Methanol Fuel Cells K. S. Kadakia, M. K. Datta, and P. N. Kumta (University of Pittsburgh)
16:40   228   Investigation of Interfacial Charge Transfer and Mass Transport at AAEM /Pt Microelectrode Interface I. Gunasekara, D. Abbott, and S. Mukerjee (Northeastern University)
17:00   229   Non-PGM Electrocatalysts for ORR: Structure and Reactivity of Dinuclear Metal Organic Framework Catalysts K. Strickland and S. Mukerjee (Northeastern University)
17:20   230   RDE Study of Oxygen Reduction on Non-Platinum Cathode Catalysts for Alkaline Membrane Fuel Cells I. Kruusenberg, L. Matisen, K. Tammeveski (University of Tartu), Q. Shah, and A. Kannan (Arizona State University)
17:40   231   Enhanced Oxygen Reduction Kinetics and Durability in PEMFCs at 120°C and Low Relative Humidity Using Silicotungstic Acid P. Baker, L. Bonville, and H. Kunz (University of Connecticut)
 

Ballroom 6E, Level 6, Washington State Convention Center

Poster Session

Co-Chairs: S. Narayan and A. Manivannan
TimeProgr#Title and Authors
o   232   Fe2O3-Graphene Oxide Nanocomposites for Supercapacitor Electrode K. Yang, P. He, W. Wang, F. Dong, and Y. Deng (Southwest University of Science and Technology)
o   233   Structural and Electrochemical Characterization of Sn/CNF and Si/CNF Grown Directly on a Copper Substrate as a Lithium-Ion Battery Anode D. M. Hernandez-Lugo, F. Mendoza, E. Febus, B. Weiner, and G. Morell (University of Puerto Rico)
o   234   Effect of Novel Cathode Additive on Lithium-Ion Batteries at High Temperature J. Lo, H. Wu, C. Yang, J. Pan, and A. Peng (Industrial Technology Research Institute)
o   235   Exploration of Oxide Semiconductors for Photoelectrochemical Water Splitting S. Schermer and K. Menningen (University of Wisconsin - Stevens Point)
o   236   Li4Ti5O12/Carbon Hybrid Composite Nanotubes for Battery-Supercapacitor Hybrid Energy Storage Devices H. Choi, J. Im, and C. Park (Seoul National University)
o   237   Microwave-Assisted Al Coating on Spinel Lithium Titanate Anodes for Improved Performance of Li-Ion Batteries C. Lin, C. Hsieh, B. Chang, and R. Juang (Yuan Ze University)
o   238   Physical Models of the Conductivity in Glucose Alkaline Fuel Cell Z. Rubin and L. Mor (Ort Braude College)
o   239   Synthesis of LiFePO4/C Composite Cathode Material by the Emulsion-Precipitation Method S. Jheng, J. Chen (National University of Kaohsiung), and L. Wang (Kaohsiung Medical University)
o   240   Toward a Predictive Understanding of Proton Transport in Nanostructured Aqueous Systems D. J. Keffer, M. Esai Selvan, and Q. Wang (The University of Tennessee)
o   241   Effect of Carbon Coating on the Lithium Electrochemical Behavior of Titania Nanotubes Synthesized by Anodization H. Lee and M. Seo (Andong National University)
o   242   Influence of the Microstructures on the Electrochemical Performances of LiCoO2 Thin Films by GLAD J. Kim, K. Nam, S. Choi (Korea Institute of Science and Technology), and J. Lee (Myungji University)
o   243   High Rate Performances of LiFePO4-Ag Composite Thin Film Cathodes K. Chiu, H. Leu, C. Chen, and M. Weng (Feng Chia University)
o   244   Investigation of Double Positive Electrode for Lithium/Oxygen Battery K. Cai and W. Pu (Tsinghua University)
o   245   Study Thermal Stability of Silicate Olivine Cathode Materials with and without Coating Q. Wei, H. Zheng, and Y. Huang (Chemat Technology Incorporated)
o   246   SnO2-Graphite Composite Anode for Lithium-Ion Secondary Batteries H. Jeong, H. Seo, E. Lee, K. Kim (Korea University), and C. Yi (Sungshin Women's University)
o   247   Thermal Stability of Charged Li(Ni,Co,Mn)O2 Cathode for Li-Ion Batteries Studied by Synchrotron Based X-ray Techniques D. Jang, J. Yoon, J. Kim, S. Lee, H. Kim (Sungkyunkwan University), K. Nam, X. Yang (Brookhaven National Laboratory), W. Kim (Daejung EM Co. Ltd.), and W. Yoon (Sungkyunkwan University)
o   248   Electrochemical Behavior of Si Anode with Surface Protective Layer J. Min, Y. Bae, and S. Song (Chungnam National University)
o   249   Effect of Preparation Methods on the Properties of Ni-YSZ Cermets for SOFC Anodes N. Yang (Shandong University of Technology), X. Meng, B. Meng, X. Tan (Shangdong University of Technology), Z. Ma (Shanghai Jiao Tong University), and J. Sunarso (Deakin University)
o   250   Off-Stoichiometry LiFePO4: Impurities and Related Properties Z. Wang, L. Yuan, D. Sun (Huazhong University of Science and Technology), and Y. Huang (Huazhong University of Science & Technology)
o   251   Development of a Galvanostatic Analysis Technique as an In Situ Diagnostic Tool for PEMFCs J. Jang, K. Lee, B. Lee, S. Yoo, H. Kim, E. Cho, D. Henkensmeier (Korea Institute of Science and Technology), S. Kim (Chung-Ang University), S. Hwang, and T. Lim (Korea Institute of Science and Technology)
o   252   Modified Grating Crystalline Silicon Solar Cells for Next Generation Photovoltaics C. Chen (National Tsing-Hua University), M. Liao (National Taiwan University), I. Chang (VIA Labs, Inc.), P. Juan (Ming Chi Unversity of Technology), Z. Pei (National Chung-Hsing University), and H. Hwang (National Tsing-Hua University)
o   253   Preparation of the Electrode Material LiMnO2 Based on Impinging Stream Reaction Y. Xiao, Y. Wu, and W. Pu (Tsinghua University)
o   254   Synthesis and Characterization of Li1.3Al0.3Ti1.7(PO4)3 for Solid Electrolyte of a Lithium Secondary Battery C. Yi (Sungshin Women's University), H. Choi, and K. Kim (Korea University)
o   255   Optimizing Polymer-Based Gel Electrolytes for Long-Term Stable Dye-Sensitized Solar Cells M. Kang, H. Cha, J. Park (Sangmyung University), and Y. Kim (Chungbuk National University)
o   256   Two-Dimensional Thermal Modeling of a Lithium-Ion Battery under the Constant-Power Operating Mode J. Yi, U. Kim, C. Shin (Ajou University), T. Han, and S. Park (GM Korea)
o   257   Modeling the Discharge Behaviors of LiFePo4 Lithium-Ion Battery at Various Cathode Compositions J. Yi, S. Ryu, C. Shin (Ajou University), S. Yu, and W. Cho (Korea Institute of Science and Technology)
o   258   Modeling the Behaviors of a 2 Series-2 Parallel AGM Lead Acid Battery System during Dynamic Operations J. Lee (Hyundai Motor Company), U. Kim, C. Shin (Ajou University), and J. Lee (Hyundai Motor Company)
o   259   Preparation of 2-D Li4Ti5O12 Anode Based on Anodic TiO2 Nanotubes and Its Application for Lithium Secondary Battery G. Cha and J. Choi (Inha University)
o   260   Effect of Both Mn and Zn Partial Substitution on the Electrochemical Performance of LiFeSO4F M. Ati, B. Melot (Université de Picardie Jules Verne), P. Barpanda (University of Tokyo), J. Chotard (LRCS), G. Rousse (Université Pierre et Marie Curie), and J. Tarascon (Université de Picardie Jules Verne)
o   261   Improvement of Electrochemical Performance of Thermally Reduced Graphene Oxide as Anode Materials in LIBs J. Kim (Korea Basic Science Institute), B. Kim (UNIST), W. Hong, and H. Kim (Korea Basic Science Institute)
o   262   Direct Coating of Catalyst Layer on Membrane Containing Phosphoric Acid Y. Lee (Samsung Electronic Co., Ltd.), J. Park, S. Hong, J. Ha, C. Pak, and K. Choi (Samsung Electronics Co., Ltd.)
o   263   Copper Nanowire Assisted Cobalt Oxide Composites for High Reversible Capacity of Lithium-Ion Batteries S. Ha, S. Nam, J. Kim, S. Lee, I. Kang (Gwangju Institute of Science & Technology), and W. Kim (Gwangju Institute of Science and Technology)
o   264   Study on Thermal Conductivity of Polymer Composites for Lithium-Ion Battery Housing Materials M. Oh, Y. Yoon, N. Kim, and A. Kim (Korea Automotive Technology Institute)
o   265   A Novel Concentration-Gradient Li[Ni0.83Co0.07Mn0.10]O2 Cathode Material for High-Energy Rechargeable Li-Ion Batteries H. Noh and Y. Sun (Hanyang University)
o   266   High Capacity Cathodes Based on Doped Ceria Catalyst for Rechargeable Li-O2 Batteries R. Kalubarme, T. Kim, and C. Park (Chonnam National University)
o   267   Li Ionic Conductivity of Li1.5Al0.5Ge1.5P3-xBxO12 Solid Electrolyte for Lithium-Air Batteries M. Cho, R. Kalubarme, J. Park, and C. Park (Chonnam National University)
o   268   Complexes of SnCl2 and H2PtCl6 as Precursors for PtSn Electrochatalysts H. Teller, H. Kornwietz, and A. Schechter (Ariel University Center of Samaria)
o   269   Key Factors Influencing the Structure and Electrochemical Performances of LiFePO4/C Composite in Sol-Gel Synthesis C. Guan and H. Huang (Wright State University)
o   270   In Situ X-ray Diffraction Spectroscopy Study on the Structural Change of Li1.2Ni0.2Mn0.6O2 D. Yoon, S. Choo, and W. Cho (Korea Institute of Science and Technology)
o   271   Effect of Storage Conditions on Properties of Lithium-Sulfur Cells V. Kolosnitsyn, E. Kuzmina, and E. Karaseva (Institution of the Russian Academy of Sciences Institute of Organic Chemistry of Ufa Scientific Center of the RAS)
o   272   Estimation of Rate of Interaction Lithium Polysulfide Solutions in Electrolyte with Metallic Lithium Electrode V. Kolosnitsyn, A. Ivanov, E. Kuzmina, and E. Karaseva (Institution of the Russian Academy of Sciences Institute of Organic Chemistry of Ufa Scientific Center of the RAS)
o   273   Electrochemical Applications of electrolytes based on ionic Liquids M. Neto, R. Leones (University of Minho), F. Sentanin (Universidade de São Paulo), J. Esperança (Universidade Nova de Lisboa), M. J. Medeiros (University of Minho), A. Pawlicka (Universidade de São Paulo), and M. M. Silva (University of Minho)
o   274   Effect of Acid Concentration on the Structure and Electrochemical Performance of Li2MnO3 L. Torres-Castro, G. Singh (University of Puerto Rico), A. Manivannan (NETL), J. Shojan, and R. S. Katiyar (University of Puerto Rico)
o   275   Modeling and Experimental Studies of Local Relative Humidity in a H2/O2 Proton Exchange Membrane Fuel Cell Y. Liu (University of Rochester), W. Gu (General Motors R&D), H. Gasteiger (Technische Universität München), and J. Jorne (University of Rochester)
o   276   Encapsulation of Primary LiFePO4 Nanoparticles in Carbon Web with Controlled Cooling Rate for Lithium-Ion Batteries A. Kumar, G. Singh, R. Thomas, M. Tomar, and R. S. Katiyar (University of Puerto Rico)
o   277   Synthesis and Electrochemical Properties of MnO2 Nanosheets/Carbon Composites Y. Chun and Y. Ahn (Korea Institute of Energy Research)
o   278   Effects of Electrode Layer on the Back Side on Electrochemical Properties of Unit Cells for Lithium Secondary Batteries B. Son, H. Lee, M. Seo, J. Ko, and Y. Lee (Hanbat National University)
o   279   Effects of Physical Parameters of Separators on Electrochemical Properties of Lithium Secondary Batteries M. Seo, Y. Lee, J. Choi, B. Son, S. Kim, and Y. Lee (Hanbat National University)
o   280   Analytical Techniques for Detecting Unwanted Fe Particles in Cathodes S. Patel and I. Mowat (Evans Analytical Group)
o   281   Examination of Flame Retardant Ions (FRIONS) in Cell Testing N. M. Jackson, M. W. Payne (Novolyte Technologies), D. Scherson, A. Shaffer, J. Protasiewicz (Case Western Reserve University), and A. Morgan (University of Dayton Research Institute)
o   282   Enhanced Stability of La2Sn2O7-Doped Ni/GDC Anode Materials for Dry Methane-Fueled Solid Oxide Fuel Cells M. Park, S. Min, Y. Jeon, A. Dorjgotov, Y. Shul, and S. Hyun (Yonsei University)
o   283   Nano Size Effects of Li-Rich Layered Oxide as High-Energy Cathode Materials for Li-Ion Batteries W. Ryu (Korea Advanced Institute of Science and Technology), D. Kim, S. Kang (Argonne National Laboratory), and H. Kwon (Korea Advanced Institute of Science and Technology)
o   284   Magnesium Battery Concept for Stationary Power and Smart Electrical Grid P. N. Kumta, P. Saha, M. K. Datta (University of Pittsburgh), D. Liu, G. Howlett, D. Wang (Pennsylvania State University), A. Manivannan (National Energy Technology Laboratory), and P. N. Kumta (University of Pittsburgh)
o   285   New Cathode Catalyst using Non-precious Metal for Polymer Electrolyte Membrane Fuel Cells J. Choi (Kyungil University) and H. Jung (Kangwon National University)
o   286   Manufacture of Titania-silica Composites by Sol-gel Method as an Anode Material B. Na (Chungbuk National University), B. Cho (KIST), and J. Bang (Chungbuk National University)
o   287   Design of Electrochromic Window based on Poly (3,3-dimethyl-3,4-dihydro-2H-thieno[3,4-b][1,4]dioxepine) and Carbazole based films S. Kim, X. Kong, and M. Taya (University of Washington)
o   288   Pyroelectric and Photogalvanic Surface Potential in Ferroelectrics for Crystal Generator K. Kitamura, S. Takekawa, H. Hatano (National Institute for Materials Science), and O. Lochev (RIKEN)
o   289   MoO2/C Composite Nanofibers with Enhanced Lithium-Storage Properties W. Luo (Huazhong University of Science and Technology), X. Hu, Y. Sun, and Y. Huang (Huazhong University of Science & Technology)
o   290   Gas Evolution and Mechanism Study of Li-Ion Polymer Batteries in High Temperature Storage P. Yu, Y. Gao, M. Wu, X. Chen, J. Liang, H. Wang, T. Zhou, J. Guo, and H. Yan (Dongguan Amperex Technology Co., Ltd.)
o   291   A Novel Approach for Effective ORR NPM Catalysts Development K. Ramanujam (Indian Institute of Technology Madras)
o   292   Carbon Xerogels as Active Material in Gas Diffusion Electrodes I. Bardenhagen, D. Fenske (Fraunhofer Institute for Manufacturing Technology and Advanced Materials), and M. Bäumer (University of Bremen)
o   293   Influence of Metallic Ions on the Electrochemical Activity of Electrodes Based on Pourbaix Diagrams for Vanadium Redox Flow Battery C. Zhao, X. Xie, W. Shubo, J. Wang (Tsinghua University), W. Wang, and Y. Lv (Beijing University of Chemical Technology)
o   294   Relaxation Phase Analysis of Olivine-Type LiFePO4 Cathode for Secondary Lithium-Ion Battery S. Park, K. Kameyame, and T. Yao (Kyoto University)
o   295   On the Synthesis and Activity of Ru Based Catalysts for Oxygen Reduction for DMFC A. Schechter, H. Teller (Ariel University Center of Samaria), and A. Gedanken (Bar-Ilan University)
o   296   Ash-Free Coal as Fuel for Direct Carbon Fuel Cell J. Yoo, S. Jin, J. Kim, H. Choi, Y. Rhim, and S. Lee (Korea Institute of Energy Research)
o   297   Effect of Aluminium Doping and Annealing Temperature on the Structure and Electrochemistry of High-Capacity xLi2MnO3•(1-x)LiMO2 (M = Mn, Ni, Co, Al; x = 0.5) Cathode Material for Lithium-Ion Battery K. Ozoemena, C. Jafta, and M. Mathe (Council for Scientific and Industrial Research)
o   298   Planar Sodium Metal Halide Battery Using Flat Plate Beta-Alumina (β"-Al2O3) Electrolyte for Grid Applications J. P. Lemmon, G. Li, X. Lu, V. Sprenkle, B. W. Kirby, G. Yang, N. Canfield, and K. Meinhardt (Pacific Northwest National Laboratory)
o   299   Effects of Non-Active Materials on the Performance of High Voltage LiNi0.5Mn1.5O4 Cathodes W. Xu, X. Chen, J. Xiao, F. Ding, M. Engelhard, X. Li, J. Liu, and J. Zhang (Pacific Northwest National Laboratory)
o   300   Colloidal Synthesis of Cuprite Nanocrystals for Lithium Ion Battery A. Paolella and C. George (Istituto Italiano di Tecnologia)
 

Wednesday, May 9, 2012

Room 608, Level 6, Washington State Convention Center

Cathodes for Lithium Ion Batteries 3

Co-Chairs: Ilias Belharouak and Brent Melot
TimeProgr#Title and Authors
08:00   301   Spatially-Resolved Electrochemical Strain Microscopy Simulation of Polycrystalline LiCoO2 Films D. Chung (Purdue University), N. Balke, S. Kalinin (Oak Ridge National Laboratory), and R. Garcia (Purdue University)
08:20   302   Study of LiMn2O4 Electrode Dissolution and Deposition Effects by ICP-OES Y. Lee, J. Park, and A. Sastry (University of Michigan)
08:40   303   Synthesis and Electrochemical Properties of Layered Lithium Calcium Cobalt Oxides for Battery Applications C. K. Blakely, S. R. Bruno, J. D. Davis, and V. V. Poltavets (Michigan State University)
09:00   304   Optimization of the Electrochemical Properties of xLi2MnO3∙(1-x)LiMO2 Electrodes (M= Mn, Ni, Co) Prepared via Spray Pyrolysis Process X. Zhang (Argonne National Laboratory), M. Lengyel (Washington University in Saint Louis), I. Belharouak (Argonne National Laboratory), and R. Axelbaum (Washington University in Saint Louis)
09:20   305   Graphene-Supported CoO Nanoparticles for Superior Lithium Storage Properties Y. Sun, X. Hu (Huazhong University of Science & Technology), W. Luo (Huazhong University of Science and Technology), and Y. Huang (Huazhong University of Science & Technology)
09:40 Intermission (20 Minutes)
10:00   306   Is it Possible to Design Safe, High-Voltage Cathodes An Investigation with High-Throughput Computing A. Jain, G. Hautier, S. Ong, C. Moore, and G. Ceder (Massachusetts Institute of Technology)
10:20   307   VO2(B) Mesocrystals: Synthesis, Formation Mechanism, and Application in Lithium-Ion Battery E. Uchaker, Y. Liu (University of Washington), N. Zhou (Central South University), J. Li (Beijing Institute of Petrochemical Technology), and G. Cao (University of Washington)
10:40   308   Structure Analysis of γ-Fe2O3 Crystal in the Process of Chemical Li Insertion S. Park, T. Matsui, and T. Yao (Kyoto University)
11:00   309   Relaxation Structure Analysis for γ-Fe2O3 with Various Li Insertion Rates T. Kaoru, S. Park, and T. Yao (Kyoto University)
11:20   310   Observation of Relaxation Phenomena in Various Li Ion Contents of LixCoO2 T. Kawaguchi, E. Matsubara, and T. Ichitsubo (Kyoto University)
11:40   311   Layered Materials for Solid-state Rechargeable Lithium Batteries J. F. Ribeiro, M. Silva, L. Gonçalves, M. Silva, J. Carmo, and J. Correia (University of Minho)
 

Room 609, Level 6, Washington State Convention Center

Fuel Cell Materials and Processes

Co-Chairs: Jean St. Pierre and Paul Kenis
TimeProgr#Title and Authors
08:00   312   Photoelectrochemical Modeling of a Water-Splitting Membrane A. Berger and J. Newman (University of California, Berkeley)
08:20   313   Use of the "Stretch-and-Fold" Technique for Nano-Metal-Forming of Electrochemical Electrodes and Reactors S. A. Barton (Florida State University)
08:40   314   Development of a Hydrogen-Powered Laminar Flow Fuel Cell M. S. Naughton, G. Gu, and P. Kenis (University of Illinois)
09:00   315   Experimental Investigation of Degradation in PEMFC with Dead-Ended Anode Operation T. Marsuura, J. B. Siegel, and A. G. Stefanopoulou (University of Michigan)
09:20   316   Study of Water Transport in a PEFC with an Open Metallic Element Flow Field at Ultra-High Current Density A. Srouji, L. Zheng (The Pennsylvania State University), A. Turhan, and M. Mench (The University of Tennessee Knoxville)
09:40 Intermission (20 Minutes)
10:00   317   Hydrocarbon Electrode Binders for Polymer Electrolyte Fuel Cells J. Sayre and L. Ramanathan (Battelle Memorial Institute)
10:20   318   Interfacial Structure, Dynamics, and Transport of Polyelectrolyte Membrane Materials for Fuel Cells K. Page, B. Rowe (NIST), S. Eastman (United Technologies Research Center), S. Kim (Polymers Division, National Institute of Standards and Technology), S. Kang (Exxon Mobil Research Center), C. Soles, and J. Dura (NIST)
10:40   319   Molecular Dynamics Modeling of Polymer Hydroxide-ion-conducting Electrolyte Membranes for Alkaline Fuel Cells J. Cowley, S. Lee, B. Merinov, A. Jaramillo-Botero, and W. A. Goddard III (California Institute of Technology)
11:00   320   A Comprehensive Performance Model for Air-Cooled Fuel Cell Systems (ACS) A. Nanjundappa (Simon Fraser University), D. Harvey (Ballard Power Systems), and E. Kjeang (Simon Fraser University)
11:20   321   Electrochemical Studies on High Temperature Polymer Electrolyte Membrane Fuel Cell Electrodes S. Hong, J. Ha (Samsung Electronics Co., Ltd.), Y. Lee (Samsung Electronic Co., Ltd.), J. Park, C. Pak, and K. Choi (Samsung Electronics Co., Ltd.)
11:40   322   Investigation of Fuel Cell Materials and Liquid Water Transport by Means of Synchrotron Imaging H. Markötter, T. Arlt, C. Tötzke, K. Dittmann (Helmholtz-Zentrum Berlin), P. Krüger, J. Haußmann, M. Klages, J. Scholta (Zentrum für Sonnenenergie und Wasserstoff-Forschung Baden-Württemberg), R. Alink, D. Gerteisen (Fraunhofer Institut für Solare Energiesysteme ISE), K. Wippermann (Forschungszentrum Jülich), H. Riesemeier (Bundesanstalt für Materialforschung und -prüfung Berlin), I. Manke, and J. Banhart (Helmholtz-Zentrum Berlin)
 

Room 608, Level 6, Washington State Convention Center

Solid Oxide Fuel Cells

Co-Chairs: Ismail Celik and Paul W. Northrop
TimeProgr#Title and Authors
14:00   323   Effects of Post Processing Environmental Control on the Low Temperature Wettability and Conductivity of Sodium/ β" Alumina G. W. Coffey, D. Reed (Pacific Northwest National Laboratory), E. Mast (Pacific Northwest National Lab), V. L. Sprenkle, and Z. Yang (Pacific Northwest National Laboratory)
14:20   324   A Computational Study of Anomalous Cathode-Reference Voltages on Anode Supported Button SOFCs S. R. Pakalapati, C. Ismail, F. Harry, and J. Escobar-Vargas (West Virginia University)
14:40   325   Structure and Performance of LSCF Cathode by RF Sputtering for Intermediate Temperature SOFCs G. Cho, I. Chang, J. Choi, and S. Cha (Seoul National University)
15:00   326   Characterization of Thin-Film YSZ/GDC for Using Solid Oxide Membrane S. Ji, I. Chang, G. Cho, Y. Lee (Seoul National University), M. Lee (University of California, Merced), and S. Cha (Seoul National University)
15:20   327   Modeling and Parameter Estimation of Chitosan-Based Electrode Binder for Supercapacitors P. W. Northrop, N. Choudhury (Washington University in St. Louis), and V. Subramanian (Washington University)
15:40 Intermission (20 Minutes)
16:00   328   Fabrication and Evaluation of Solid Oxide Fuel Cells with Double Electrolyte for Operating at Low Temperature T. Mukai, S. Tsukui, M. Adachi (Osaka Prefecture University), K. Yoshida (Tokyo Metropolitan College of Industrial Technology), H. Ishibashi, R. Hatayama, S. Yamaguchi (Osaka Prefecture University), Y. Kakehi, K. Satou, and T. Kusaka (Technology Research Institute of Osaka Prefecture)
16:20   329   Anode-Supported Flat-Tubular Solid Oxide Fuel Cell with a Dual-Layer Ceramic Interconnect J. Lee, B. Park, S. Lee, T. Lim, S. Park, R. Song, and D. Shin (Korea Institute of Energy Research)
16:40   330   Development of High Reliability Electrolyte-Supported Micro Tubular SOFC W. Hsieh, P. Lin (National Chiao Tung University), and S. Wang (National Taipei University of Technology)
17:00   331   Lithium Iron Oxide (LiFeO2) - An Anode Material for SOFC T. T. Muhl and J. T. Irvine (University of St. Andrews)
17:20   332   Structural Parameters, Phase Durability and TEC for the Double-Perovskite Sr2FeMoO6 SOFC Anode Materials T. Wei, Q. Zhang (Huazhong University of Science and Technology), and Y. Huang (Huazhong University of Science & Technology)
 

Room 609, Level 6, Washington State Convention Center

Lithium Ion Battery Electrolytes

Co-Chairs: P. Kumta and A. Manivannan
TimeProgr#Title and Authors
14:00   333   Li+ Conduction in the Garnet Framework H. Xie, Y. Li, A. Gupta, and J. B. Goodenough (The University of Texas at Austin)
14:20   334   Phosphate and Phosphazene Electrolyte Additives for Li-Ion Batteries A. V. Cresce and K. Xu (U.S. Army Research Laboratory)
14:40   335   Comparing the Solvation and Phase Behavior of Lithium Trifluoromethanesulfonate in Ethylene Carbonate, gamma-Butyrolactone, or Propylene Carbonate M. P. Foley, C. Worosz (U. S. Naval Academy), D. Seo, W. Henderson, P. Boyle (North Carolina State University), H. De long (Air Force Office of Scientific Research), and P. Trulove (U. S. Naval Academy)
15:00   336   Redox Shuttles for Overcharge Protection of Lithium-Ion Battery L. Zhang (Argonne National Lab), Z. Zhang, N. Azimi, and K. Amine (Argonne National Laboratory)
15:20   337   Nanostructured Polymer Electrolytes for Lithium Ion Batteries P. R. Chinnam and S. Wunder (Temple University)
15:40 Intermission (20 Minutes)
16:00   338   Overcharge Protection Effect of Cyclohexylbenzene and New Overcharge Protection Agent for Lithium Ion Batteries N. Iwayasu and K. Takahashi (Hitachi Ltd.)
16:20   339   High Performance and Safe Electrolyte Development W. Xing, J. Buettner-Garrett, J. Kelly, M. Krysiak, and J. Zhang (ADA Technologies, Inc.)
16:40   340   Effect of Anode on the Capacity Loss of Li-ion Cells with Redox Shuttles During Overcharge T. Barbarich and M. L. Patterson (EnerDel)
17:00   341   In-Situ TEM Observation of Descrete Hopping Lithiation and Nanoglass Formation in ZnO Nanowire A. Kushima (University of Pennsylvania), X. Liu (Sandia National Laboratories), G. Zhu (Georgia Institute of Technology), J. Li (Massachusetts Institute of Technology), Z. Wang (Georgia Institute of Technology), and J. Y. Huang (Sandia National Laboratories)
17:20   342   In Situ Cationic Polymerization of Multi-Functional Vinyl Ethers for Gel Polymer Electrolytes of Lithium-Ion Batteries S. Hwang, J. Choi, M. Kwon (Samsung Advanced Institute of Technology), H. Kim (Hanyang University), and S. Doo (Samsung Advanced Institute of Technology)
17:40   343   Dinitrile-based Electrolytes for Lithium Ion Batteries H. Duncan (NRC/ICPET), N. Salem (NRC), Y. Abu-Lebdeh, and I. Davidson (NRC/ICPET)
 

Thursday, May 10, 2012

Room 608, Level 6, Washington State Convention Center

Lithium Ion Battery Modeling and Diagnostics 1

Co-Chairs: Bugga V. Ratnakumar and V. R. Subramaniam
TimeProgr#Title and Authors
08:00   344   The Effects of Pressure on Lithium Redistribution in Lithium-metal Batteries A. Ferrese (UC Berkeley) and J. Newman (University of California, Berkeley)
08:20   345   In Situ Neutron Diagnosis of Lithium Ion Batteries H. Wang, K. Yang, L. Huang, B. Dhar, L. Zou (State University of New York, Binghamton), G. Downing, C. Soles (National Institute of Standards and Technology), Y. He, Y. Zhao (University of Georgia), D. Ruzmetov, A. Talin, S. C. DeCaluwe, J. A. Dura, D. S. Hussey, D. Jacobson (National Institute of Standards and Technology), J. P. Owejan, J. E. Owejan, J. Gagliardo (General Motors LLC), S. Whittingham (State University of New York, Binghamton), J. Zhang (Pacific Northwest National Laboratory), B. Yang (University of Texas, Arlington), and P. Haney (National Institute of Standards and Technology)
08:40   346   Gradient-Based Optimization of a Single Lithium-Ion Cell N. Xue, W. Du (University of Michigan), A. Gupta (India Institute of Technology), J. Martins, A. Sastry (University of Michigan), and W. Shyy (Hong Kong University of Science and Technology)
09:00   347   Spatially-Resolved Modeling of Three-Dimensionally Reconstructed Battery Electrode Microstructures B. Vijaraghavan, D. Chung (Purdue University), P. Shearing (University College London), N. Brandon (Imperial College), S. Harris (General Motors), and R. Garcia (Purdue University)
09:20   348   Distributed Thermal Model for Lithium-Ion Battery M. Guo and R. E. White (University of South Carolina)
09:40 Intermission (20 Minutes)
10:00   349   Study of Heat of Mixing on Temperature Distribution of a Lithium Polymer Battery M. Xiao and S. Choe (Auburn University)
10:20   350   Applying Lumped Capacitance Method to Calculate Heat Rates in the Charge/Discharge of Prismatic Lithium Cells in Natural Convection S. Bazinski and X. Wang (Oakland University)
10:40   351   Determining Entropic Coefficient of the LFP Prismatic Cell at Various Temperatures and Charge/Discharge States S. Bazinski and X. Wang (Oakland University)
11:00   352   Modeling and Validation of Stress Generation and Volume Change of Li-Ion Battery R. Fu, M. Xiao, and S. Choe (Auburn University)
11:20   353   State of Charge Estimation of a Lithium-Ion Cell under Low Earth Orbit Conditions Using Kalman Filtering Approaches S. Khaleghi Rahimian, S. Rayman, and R. E. White (University of South Carolina)
11:40   354   Efficient Simulation of Two Dimensional Thermal Electrochemical Models of Lithium Ion Battery Stacks P. W. Northrop, S. De, V. Ramadesigan (Washington University in St. Louis), V. R. Subramanian (Washington University), and S. Santhanagopalan (2Center for Transportation Technologies and Systems, National Renewable Energy Laboratory)
 

Lithium Ion Battery Modeling and Diagnostics 2

Co-Chairs: Edward M. Sabolsky and Sanjay Patel
TimeProgr#Title and Authors
14:00   355   Investigation of the Structural Aspects of Lithium-Ion Battery Electrode Composite Films Using Molecular Modeling Tools A. V. Shevade, B. V. Ratnakumar, M. C. Smart, and W. West (California Institute of Technology)
14:20   356   In-Situ High Energy X-ray Diffraction (HEXRD) Investigation of 18650 Lithium-ion Batteries C. LIN (Argonne National Lab), Y. Qin, Y. Ren, K. Amine (Argonne National Laboratory), and Z. Chen (Argonne National Lab)
14:40   357   Potentiostatic Intermittent Titration Technique (PITT) for Electrodes Governed by Diffusion and Interfacial Reaction J. Li (University of Kentucky), X. Xiao (General Motors Research & Development Center), F. Yang (University of Kentucky), M. Verbrugge (General Motors Research & Development Center), and Y. Cheng (University of Kentucky)
15:00   358   Analytical Methods for Characterizing Surfaces of Cathode Particles S. Patel and I. Mowat (Evans Analytical Group)
15:20   359   Investigation of Local Structural Evolution in Conversion Electrodes Upon (de)lithiation by TEM-EELS F. Wang (Brookhaven National Laboratory), A. Van Der Ven (Michigan University), N. Pereira (Rutgers University), Y. Zhu (Brookhaven National Lab), G. Amatucci (Rutgers University), and J. Graetz (Brookhaven National Laboratory)
15:40   360   Elucidating Microstructural Evolution Effects During Charge Cycling Li Coin Cells P. Shearing (Imperial College), J. Gelb (Xradia Inc.), V. Yufit (Imperial College London), R. Bradley, D. Eastwood (The University of Manchester), A. Gu (Xradia, Inc.), N. Brandon (Imperial College London), and P. Withers (The University of Manchester)
16:00 Intermission (20 Minutes)
16:20   361   Electrochemical and Mechanical Evaluation of Multifunctional Lithium Ion Batteries J. Mullenax, S. Hamburg, P. Browning, W. Huebsch, and E. M. Sabolsky (West Virginia University)

CANCELLED
16:40   362   The Effect of Magnetization of an Iron Phosphate Li-ion Traction Pouch R. N. O'Brien (U. of Victoria, and MHD Technologies Ltd.)
17:00   363   Determination of Surface Free Energy of Metal Oxide in Electrolyte Solutions by Potentiometric Measurements K. Croué (Laboratoire de Réactivité et Chimie des Solides), J. Jolivet (Chimie de la Matière Condensée de Paris), and D. Larcher (Laboratoire de Réactivité et Chimie des Solides)