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Part 1: Principles of Operation; Chapter 1. Basic Concepts; Chapter 2. Electrochemical Principles and Reactions; Chapter 3. Factors Affecting Battery Performance; Chapter 4. Battery Standardization; Chapter 5. Battery Design; Chapter 6. Mathematical Modeling of Batteries; Chapter 7. Battery Electrolytes; Part 2: Primary Batteries; Chapter 8. An Introduction to Primary Batteries; Chapter 9. Zinc-Carbon Batteries--Leclanche and Zinc Chloride Cell Systems; Chapter 10. Magnesium and Aluminum Batteries; Chapter 11. Alkaline-Manganese Dioxide Batteries; Chapter 12. Mercuric Oxide Batteries; Chapter 13. Button Cell Batteries: Silver Oxide-Zinc and Zinc-Air Systems; Chapter 14. Lithium Primary Batteries; Part 3: Secondary Batteries; Chapter 15. An Introduction to Secondary Batteries; Chapter 16. Lead-Acid Batteries; Chapter 17. Valve-Regulated Lead-Acid Batteries; Chapter 18. Iron Electrode Batteries; Chapter 19. Industrial and Aerospace Nickel-Cadmium Batteries; Chapter 20. Vented Sintered-Plate Nickel-Cadmium Batteries; Chapter 21. Portable Sealed Nickel-Cadmium Batteries; Chapter 22. Nickel-Metal Hydride Batteries; Chapter 23. Nickel-Zinc Batteries; Chapter 24. Nickel-Hydrogen Batteries; Chapter 25. Silver Oxide Batteries; Chapter 26. Lithium-Ion Batteries; Chapter 27. Rechargeable Lithium Metal Batteries (Ambient Temperature); Chapter 28. Rechargeable Zinc/Alkaline/Manganese Dioxide Batteries; Part 4: Specialized Battery Systems; Chapter 29. Batteries for Electric and Hybrid Vehicles; Chapter 30. Batteries for Electrical Energy Storage Applications; Chapter 31. Batteries for Biomedical Applications; Chapter 32. Battery Selection for Consumer Electronics; Chapter 33. Metal/Air Batteries; Chapter 34. Reserve Magnesium Anode and Zinc/Silver Oxide Batteries; Chapter 35. Reserve Military Batteries; Chapter 36. Thermal Batteries; Part 5: Fuel Cells and Electrochemical Capacitors; Chapter 37. Introduction to Fuel Cells; Chapter 38. Small Fuel Cells; Chapter 39. Electrochemical Capacitors; Appendix A. Definitions; Appendix B. Standard Reduction Potentials; Appendix C. Electrochemical Equivalents of Battery Materials; Appendix D. Standard Symbols and Constants; Appendix E. Conversion Factors; Appendix F. Bibliography; Appendix G. Battery Manufacturers and R&D Organizations; Appendix H. Methodologies for Battery Failure and Analysis; Index
Thomas Reddy, Ph.D., is an Adjunct Assistant Professor in the Bio-Engineering Division of the Robert Wood Johnson Medical School of the University of Medicine and Dentistry of New Jersey, and a Visiting Scientist in the School of Engineering of Rutgers University. He was a leader in the development of Lithium Primary Batteries and served as a Vice President of Power Conversion, Inc, (currently Hawker Electrocell, Inc.) and Yardley Technical Products, Inc., and continues to act as consultant to Yardley.