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Publications

Patents

  • US7157185B2 “Nonaqueous Electrochemical Cell with Improved Energy Density”
  • US6849360 “Nonaqueous Electrochemical Cell with Improved Energy Density”
  • US5290414 “Separator / Electrolyte Combination for a Nonaqueous Cell”
  • US4963445 “Electrochemical Cells Having Spirally Wound Electrode Assemblies”
  • US4952330 “Nonaqueous Electrolyte”
  • US4585715 “Metal Cathode Carrier Having a Protective Surface Layer of a Metal Oxide
  • US 7968230B2 “High Discharge Capacity Lithium Battery”
  • US 8007940B2 “High Discharge Capacity Lithium Battery”
  • US 8124274B2 “High Discharge Capacity Lithium Battery”
  • US 8460824B2 “Lithium-Iron Disulfide Cell Design”
  • US 8785044B2 “Lithium-Iron Disulfide Cathode Formulation Having Pyrite Content and Low Conductive Additives”
  • US 8859146B2 “High-Capacity and High-Reliability Lithium Iron Disulfide Cell Design and Methods for Making the Same”
  • EP 1685612B1 “High Discharge Capacity Lithium Battery”
  • EP 1661193B1 “Nonaqueous Cell with Improved Thermoplastic Sealing Member”
  • EP 1829140B1 “High Discharge Capacity Lithium Battery”

Patents pending:

  • An improved SEI film for zinc corrosion control without hindering impedances.
  • Electrode water management based on functionalized barium sulfate.
  • An optimized air electrode based on the inherent properties of multiple carbon material sources, improved particulate coatings and fibrillation processing, and a means of improving air / gas diffusion control.

Papers and Presentations

  • “Energizer’s Lithium Iron Disulfide Commercial Batteries: Continuous Service Improvement Enabled by a Dedicated Focus on Safety and Reliability” 43rd Power Sources Conference, July 7-10, 2008
  • “Performance Characteristics of Li /MnO2-CFx Hybrid Cathode Jellyroll Cells” Journal of Power Sources, 19 (1987) 325-335
  • “DC-DC Hall Effect Measurement on the ambient super conductor double salt C5H6N Ag5I6” Bowling Green State Univ. Master Thesis.
  • “Lithium Iron Disulfide – The best of all worlds for the most demanding applications” Second Israeli Power Sources, Batteries, Fuel-Cells & EV Conference
  • “Primary Battery Design Considerations” Springer’s Encyclopedia of Electrochemistry.
  • “ Energizer’s Lithium Iron Disulfide Batteries: Continuous Service Improvement Enabled by a Dedicated Focus on Safety and Reliability” NASA / Glenn Conference, 2008