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Getting from Here to There: Energy Storage to Enable Carbon-Free Electricity at Scale
Energy Storage Materials: Approaches Based on Sustainability
The effect of CO2 on Si cycling and its consequences on cell design in Li-ion cells.
The role of storage in replenishing energy supply on a human time scale: potential and challengesSymposium Sessions | ||
Monday June 17 | ||
| 10:30 | Energy Storage Keynotes | |
| 1:30 | Energy Storage Printing & Fabrication | |
Tuesday June 18 | ||
| 10:30 | Li & Na Battery Materials | |
| 1:30 | Energy Storage Innovations | |
| 4:00 | Energy Storage I: Posters | |
Wednesday June 19 | ||
| 10:30 | Capacitor Materials | |
| 1:30 | Energy Storage Implementation | |
| 3:30 | Energy Storage II: Posters | |
Symposium Program | ||
Monday June 17 | ||
| 10:30 | Energy Storage Keynotes | 207 |
| Session chair: Imre Gyuk, U.S. Department of Energy, US; Yet-Ming Chiang, Form Energy, US | ||
| 10:30 | Energy Storage, Current Implementation and Future Innovation I. Gyuk, U.S. Department of Energy, US | |
| 10:55 | The effect of CO2 on Si cycling and its consequences on cell design in Li-ion cells V. Chevrier, 3M, US | |
| 11:20 | Getting from Here to There: Energy Storage to Enable Carbon-Free Electricity at Scale Y-M. Chiang, Massachusetts Institute of Technology, US | |
| 11:45 | Energy Storage Materials: Approaches Based on Sustainability E.S. Takeuchi, K.J. Takeuchi, A.C. Marschilok, Stony Brook University, US | |
| 12:10 | The role of storage in replenishing energy supply on a human time scale: potential and challenges V. De Angelis, Urban Electric Power, US | |
| 1:30 | Energy Storage Printing & Fabrication | 207 |
| Session chair: Imre Gyuk, U.S. Department of Energy, US | ||
| 1:30 | Energizer Innovation M. Wendling, Energizer Household Products, US | |
| 1:55 | Lightweight, Fabric-Based Charge Storage Devices for Wearable Electrionics T.L. Andrew, L. Zhang, W. Viola, University of Massachusetts Amherst, US | |
| 2:15 | Polymer-Triggered Synthesis Process is Remedying Nanocrystalline Metal Anode for All Li-Ion Types Energy Storages in Expeditious, Scalable and Inexpensive Way. J.H. Won, J.K. Kang, Korea Advanced Institute of Science and Technology, KR | |
| 2:35 | Controlling NMC Particles by Selecting Co-Precipitation Technique J.L. Durham, O. Kahvecioglu Feridun, A.L. Lipson, S. Aryal, K.Z. Pupek, Argonne National Laboratory, US | |
Tuesday June 18 | ||
| 10:30 | Li & Na Battery Materials | 207 |
| Session chair: Vincent Chevrier, 3M, US | ||
| 10:30 | Electrode materials for sodium ion storage X.S. Zhao, The University of Queensland, AU | |
| 10:50 | Composite Electrode for High Performance Ultracapacitors and Batteries N. Brambilla, J. Cooley, Nanoramic Laboratories, US | |
| 11:10 | Nanostructured Manganese Oxides for Energy Storage K.J. Takeuchi, E.S. Takeuchi, A.C. Marschilok, Stony Brook University, US | |
| 11:30 | The mechanisms for enabling semi-solid interface of lithium ion battery by sticky separators X. Su, W. Zuo, Z. Le, Z. Ma, A. Millonig, A. Parmar, E. Jackson, X. Wang, Z. Yu, J. Jeon, J. Wang, D. Johnson, A123systems, US | |
| 1:30 | Energy Storage Innovations | 207 |
| Session chair: Imre Gyuk, U.S. Department of Energy, US | ||
| 1:30 | Thin-sheet immobilized alkaline membrane separator for electrochemical applications W. Liu, Molecule Works Inc., US | |
| 1:50 | In-situ and Operando Characterization Approaches for Understanding Battery Function A.C. Marschilok, E.S. Takeuchi, K.J. Takeuchi, Stony Brook University, US | |
| 2:10 | Conductive fluoropolymer for cathode H. Sun, University of South Dakota, US | |
| 2:30 | HE3DA Thick Eelectrode Platform for 48V Starting Battery J. Prochazka, M. Zukalova, HE3DA s.r.o., CZ | |
| 2:50 | Rotating Spiral Channel Membrane-Free Flow Batteries J.M. MacInnes, University of Sheffield, UK | |
| 4:00 | Energy Storage I: Posters | Hall C |
| 3D Interconnected Binder-Free Electrospun MnO@C Nanofibers for Supercapacitor Devices M. Ramadan, A.M. Abdellah, S.G. Mohamed, N.K. Allam, The American University in Cairo, EG | ||
| Unveiling the Effect of the Structure of Carbon Material on the Charge Storage Mechanism in MoS2-Based Supercapacitors B.A. Ali, N.K. Allam, The American University in Cairo, EG | ||
| Building Investor Confidence in Energy Storage through Comprehensive Testing and Evaluation B. Taube, R. Johnson, A. McQuilling, P. Leufkens, C. Thompson, Southern Research, US | ||
| Secondary battery package for use in a harsh environment such as a satellite and a vehicle H.G. Jo, Andong National University, KR | ||
| Rational Design of Composite Electrode with an Ionic Liquid to Realize a High-Performance All-Solid-State-Battery M-S. Park, Kyung Hee University, KR | ||
| Fabrication of a Lower Weight, All 3D Printed Graphene Supercapacitor Z. Yu, S. Dobbs, K. Anderson, P. Sun, B. Zhu, A. Nair, S. Wu, California State Polytechnic University, Pomona, US | ||
Wednesday June 19 | ||
| 10:30 | Capacitor Materials | 202 |
| Session chair: Imre Gyuk, U.S. Department of Energy, US | ||
| 10:30 | Cobalt Doped (Mn,Ti)- Oxides for Supercapacitors J.D. Houck, V.S. Amar, A. Shende, R.V. Shende, South Dakota School of Mines and Technology, US | |
| 10:50 | Nanostructured spinel manganese cobalt ferrite for high-performance supercapacitors N. Allam, The American University in Cairo, EG | |
| 11:10 | Ca-SrCu2O2 electrode nanomaterial for High-Performance Supercapacitors S.W. Joo, Yeungnam University, Korea, KR | |
| 11:30 | Energy storage properties and temperature dielectric stability in dysprosium doped sodium bismuth titanate ceramics M. Benyoussef, M. Zannen, J. Belhadi, B. Manoun, J.L. Dellis, M. El Marssi, A. Lahmar, Laboratory of physics of condensed matter - University of Picardie Jules Vernes, FR | |
| 11:50 | Conducting Polymer-Intercalated Vanadate Nanofiber Composites for High Performance Pseudocapacitor Applications S. Lee, C. Park, H. Ahn, Hanyang University, KR | |
| 12:10 | Quasi-Electrostatic Simulation of Energy Density Limits and Variability in Nanoparticle (NP) Composite Materials B. Costello, J. Davis, Georgia Institute of Technology, US | |
| 1:30 | Energy Storage Implementation | 202 |
| Session chair: Imre Gyuk, U.S. Department of Energy, US | ||
| 1:30 | Systematic Characterization and Evaluation of Grid-connected Flow Battery Systems B. Taube, R. Johnson, P. Leufkens, A. McQuilling, B. Hamzavy, Southern Research, US | |
| 1:50 | Economic Long-duration Electricity Storage by Using Low-cost Thermal Energy Storage and High-efficiency Power Cycle Z. Ma, National Renewable Energy Laboratory, US | |
| 2:10 | Repurposing Used EV Batteries: Evaluation of Potential Life versus Cost M. Starke, D. Spiers, B. Taube, Southern Research, US | |
| 2:30 | Metal hydride based thermal energy storage systems for solar driven plants C. Corgnale, S. Sullivan, R. Zidan, P. Ward, M. Sulic, T. Motyka, Greenway Energy, US | |
| 2:50 | Toward A High Silicon Content Battery Anode Material J. Schwartz, J. Anderson, Ecellix Inc, US | |
| 3:30 | Energy Storage II: Posters | Boylston Hallway |
| A Matrix Based Solid State Transformer for a Hybrid Nanogrid S.K. Panda, J. Saha, National University of Singapore, SG | ||
| In-situ formation of graphene stabilizes zero-valent copper nanoparticles and significantly enhances the efficiency of photocatalytic water splitting M.M. Hasan, S.A. Tolba, N.K. Allam, The American University in Cairo, EG | ||
| Dielectric properties of SiO2/PMMA nanocomposites for energy storage M. Jobin, hepia / HES-SO University of Applied Sciences of Western Switzerland, CH | ||
| A concept study of MIBS hull form basis gas hydrates fuel supply system H.J. Kang, H.J. Kang, KRISO(Korea Research Institute of Ships and Ocean Engineering), KR | ||
Energy storage continues to be one of the most important, and active, areas of research and investment. You are invited to submit abstracts describing new materials and device development, and also describing the path to commercialization of novel energy storage systems.
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