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  • K. M. Abraham
    • Awards and Recognition
    • Consulting Assignments
  • Services
  • Li-Ion Battery Topics
    • COMPARE SODIUM-ION & Li-ION BATTERIES *** NEW ARTICLE ***
    • Exploding Hoverboards
    • Batteries for 300 mile EVs
    • The Li-Ion Battery
    • Advanced Cathode for High Power Li-Ion Battery
    • Particle Size
    • Design & Applications
    • Polymer Electrolytes
    • Large Li Batteries
    • Safety
    • Thermal Stability
    • Li Air with Advanced Cathode Structure
  • Li Air Battery Topics
    • History of Metal Air Batteries
    • Solvent & Conducting Salt Effects on the Li-Air Battery
    • Large Prototype Li-Air Batteries
    • Polymer Electrolyte-Based Rechargeable Li-Air Battery
    • Li-Ion Aircraft Battery
    • Li-Air Patent
    • Nonaqueous Solvents and Electrochemistry of Oxygen in the Li-Air Battery
  • Publications
  • Contact Us
  • K. M. Abraham
    • - Awards and Recognition
    • - Consulting Assignments
  • Services
  • Li-Ion Battery Topics
    • - COMPARE SODIUM-ION & Li-ION BATTERIES *** NEW ARTICLE ***
    • - Exploding Hoverboards
    • - Batteries for 300 mile EVs
    • - The Li-Ion Battery
    • - Advanced Cathode for High Power Li-Ion Battery
    • - Particle Size
    • - Design & Applications
    • - Polymer Electrolytes
    • - Large Li Batteries
    • - Safety
    • - Thermal Stability
    • - Li Air with Advanced Cathode Structure
  • Li Air Battery Topics
    • - History of Metal Air Batteries
    • - Solvent & Conducting Salt Effects on the Li-Air Battery
    • - Large Prototype Li-Air Batteries
    • - Polymer Electrolyte-Based Rechargeable Li-Air Battery
    • - Li-Ion Aircraft Battery
    • - Li-Air Patent
    • - Nonaqueous Solvents and Electrochemistry of Oxygen in the Li-Air Battery
  • Publications
  • Contact Us

Li Air Battery Topics

  • A Brief history of Non-aqueous Metal-Air Batteries
  • Solvent and Conducting Salt Effects on the Oxygen Reduction Mechanism in the Non-Aqueous Lithium Air Battery
  • Large Prototype Lithium Air Batteries (published in “The Proceedings of the 41st Power Sources Conference, Philadelphia, PA, June, 2006“).
  • Non-aqueous Lithium-Air Batteries with an Advanced Cathode Structure (published in The Proceedings of the 41st Power Sources Conference, Philadelphia, June, 2004″).
  • A Polymer Electrolyte-Based Rechargeable Lithium/Oxygen Battery (K. M. Abraham and Z. Jiang, J. Electrochem. Soc., 143, 1 (1996).
  • K. M. Abraham & Z. Jiang, U.S. Patent 5,510,209 (1996).
  • Influence of Nonaqueous Solvents on the Electrochemistry of Oxygen in the Rechargeable Lithium-Air Battery (J. Phys. Chem. C2010, 114, 9178-1986).

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To read more on these topics, click on the title

For comprehensive Information on all aspects of Lithium Air batteries –

Consult E-KEM Sciences

For information on Lithium-Ion Battery Topics click HERE.

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  • Revised 8/3/21