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Follow on Google News |  Solid State Lithium-Ion Batteries Solvay & French Alternative Energies Commission Presenting at NGBNEXT GENERATION BATTERIES Next generation electrodes and electrolytes Lithium vs. non-lithium: Smart battery technologies Halogen-free / Ionic-liquid, liquid and polymer electrolytes Aqueous and non-aqueous electrolytes New chemistries & materials to increase energy/power & decrease cost Novel materials for battery architectures: New flow batteries, thin film batteries, paper batteries Highly flexible printed batteries ADVANCED LI-ION BATTERIES Novel Li-based chemistries Novel electrode technologies to improve system performance Advances in spinel, phosphor-olivine, and layered oxide based technologies Cathode and anode materials for high power applications Lithium air / lithium oxygen HYBRID RENEWABLE ENERGY SYSTEMS Super-, ultra, and pseudocapacitors in hybrid battery devices From materials and components to systems design and integration FEATURED PRESENTATION: Solid State Li-Ion Batteries Hélène Rouault, PhD, R&D Project Manager in Advanced Batteries, French Alternative Energies and Atomic Energy Commission (CEA), France; and Julio Abusleme, PhD, R&D Project Manager, Solvay S.A., Belgium The next generation of portable electronic devices which could revolutionize the smart communication access and control in very large domain of applications are requested to be unbreakable and bendable. Consequently, the components of such products as the display, the electronic circuit board and also the embedded power source have to offer flexible and resistant structure. CEA and Solvay jointly have so engaged a large program of development on innovative bendable lithium-ion batteries, using monolithic gelled structure from specific PVdF based inks, making them conformable and flexible. CONFIRMED PRESENTATIONS: Safety Standardization for Wireless EV Charging Systems Joseph Bablo, Primary Designated Engineer, Underwriters Laboratories ENERGY STAR and CEC Requirements for Battery Chargers Rich Byczek, Global Technical Lead, Electric Vehicle and Energy Storage, Intertek Modular Electrolyte Additives: Decoupling Uniform Deposition and Stability Steven Kaye, PhD, CSO, Wildcat Discovery Technologies, Inc. High Temperature Li Ion Batteries Through Thermally Stable Separators Brian Morin, COO, Dreamweaver International, Inc. One-Dimensional Tin Nanostructures for Lithium-Ion Batteries M. Grant Norton, PhD, Professor, School of Mechanical and Materials Engineering, Washington State University Battery Aging: Using Modeling to Predict Battery Life Tom O’Hara, Global Business Manager, Advisory Services for Energy Storage, Intertek Integration and Safety in Commercial Energy Storage Applications Brent Perry, CEO, Corvus Energy Ltd., Canada Increasing Scrutiny and Regulation of Small Lithium Batteries Jim Powell, President, Transportation Development Group LLC Solid State Li-Ion Batteries Hélène Rouault, PhD, R&D Project Manager in Advanced Batteries, French Alternative Energies and Atomic Energy Commission (CEA), France; &Julio Abusleme, PhD, R&D Project Manager, Solvay S.A., Belgium The Economic Case for Choosing an Electric Vehicle Mike Sanislo, PE, President, High Energy Consulting, Inc. Development and Characterization of a Multilayer Ceramic Battery (MLCB®) Mark Wesselmann, President, Polymer Innovations, Inc. New High Capacity Embedded Silicon-Graphene Composite Lithium ion Battery Anode Material Junbing Yang, PhD, CTO, California Lithium Battery, Inc. What we’ve Learned from Testing >250,000 Cells: New Cell Evaluation Methods and Data Mining Techniques Derived from High Throughput Screening Steven Kaye, PhD, CSO, Wildcat Discovery Technologies, Inc. Thermal Plasma CVD: an Economic Technology for Silicon Anodes Roel C.M. Bosch, Manager Innovations, Roth and Rau B.V., The Netherlands* Reversible Overcharge Protection for Safer and Lasting Rechargeable Lithium Batteries Guoying Chen, PhD, Research Scientist, Environmental Energy Technologies Division, Lawrence Berkeley National Laboratory Lithium-Ion Batteries in Low Speed Electric Vehicles: A Case Study Sam Lev, CEO, Lithium Boost Technologies Inc. Enabling Energy Mobility via the Cloud Nick Reva, Manager, PwC Analytical Investigation of the Failure Mechanisms of Lithium-Sulfur Cells Holger Schneider, PhD, BASF Corporation* MEDIA CONTACT: Craig Wohlers Knowledge Foundation 2193 Commonwealth Ave, Box 398 Boston, MA 02135 Phone: (617) 232 7400 Fax: (617) 232-9171 Email: cwohlers@knowledgefoundation.com End
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