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Publications of Dr. Esther Takeuchi


Refereed Journals

  1. R. L. Kreeger, P. R. Menard, E. A. Sans, and H. Shechter*, "Marked Medium Effects on the Substitution and the Addition-Rearrangement-Ejection Reactions of (Halomethyl)Silanes with Methoxides," Tetrahedron Lett., 26, 1115-1118 (1985).
  2. E. A. Sans and H. Shechter*, "The Behavior of Alkoxides with Allyl(Chloromethyl)Dimethylsilanes and (Chloromethyl)Dimethylvinylsilane; The Abilities of Allyl and Vinyl Groups to Migrate from Pentacoordinate Silicon," Tetrahedron Lett., 26, 1119-1122 (1985).
  3. E. S. Takeuchi and R. W. Murray*, "Metalloporphyrin Containing Carbon Paste Electrodes," J. Electroanal. Chem. & Interfacial Electrochem., 188, No. 1-2, 49-57 (1985).
  4. J. Massaux, P. Burgmayer, E. Takeuchi, and R. W. Murray*, "An Electroactive Polymer Film on a Mercury Electrode Based on a Thallium Macrocyclic Polyether Complex," Inorg. Chem., 23, No. 26, 4417-4423 (1984).
  5. E. S. Takeuchi and J. Osteryoung*, "Electrochemical Characterization and Determination of N-Acetylpenicillamine Thionitrite," Analytica Chimica Acta, 175, 69-77 (1985).
  6. E. S. Takeuchi and J. Osteryoung*, "Preparation and Investigation of Polymer-Modified Electrodes by Square Wave Voltammetry," Anal. Chem., 57, 1768-1770 (1985).
  7. G. M. Bergman, S. J. Ebel, E. S. Takeuchi, and P. Keister*, "Heat Dissipation From Lithium/Silver Vanadium Oxide Cells During Low Rate Discharge," J. Power Sources, 20, 179-185 (1987).
  8. E. S. Takeuchi* and P. Piliero, "Lithium/Silver Vanadium Oxide Batteries with Various Silver to Vanadium Ratios," J. Power Sources, 21/2, 133-141 (1987).
  9. E. S. Takeuchi* and W. C. Thiebolt III, "The Reduction of Silver Vanadium Oxide in Lithium/Silver Vanadium Oxide Cells," J. Electrochem. Soc., 135, 2691-2694 (1988).
  10. E. S. Takeuchi*, K. J. Takeuchi*, C. Bessel and E. Eads, "Thermodynamic Determinations for Lithium/Thionyl Chloride and Lithium BrCl-Thionyl Chloride Cells as a Function of Temperature and Depth of Discharge," J. Power Sources, 24/3, 229-241 (1988).
  11. K. J. Takeuchi*, S. Kubow and E. S. Takeuchi*, "Determination of the Heat Capacities of Lithium/BCX (Bromine Chloride in Thionyl Chloride) Batteries," J. Power Sources, 28, 269-277 (1989).
  12. E. S. Takeuchi*, S. Meyer and C. F. Holmes, "Assessment of Capacity Loss in Lithium/Bromine Chloride in Thionyl Chloride Cells by Microcalorimetry under Long-Term Discharge," J. Electrochem Soc., 137, 1665-1669 (1990).
  13. D. R. Tuhovak and E. S. Takeuchi, "Low Temperature Electrolytes for Lithium Cells," J. Power Sources, 34, 51-64 (1991).
  14. E. S. Takeuchi* and W. C. Thiebolt III, "Lithium Deposition in Prismatic Lithium Cells during Intermittent Discharge," J. Electrochem. Soc., 138, L44-L45 (1991).
  15. R. A. Leising and E. S. Takeuchi*, " Solid State Cathode Materials for Lithium Batteries: The Effect of Synthesis Temperature on the Physical and Electrochemical Properties of Silver Vanadium Oxide," Chemistry of Materials, 5, 738-742 (1993).
  16. R. A. Leising and E. S. Takeuchi*, " Solid State Synthesis and Characterization of Silver Vanadium Oxide for Use as a Cathode Material for Lithium Batteries," Chemistry of Materials, 6, 489-495 (1994).
  17. S. A. Smesko and E. S. Takeuchi*, "Prismatic Thionyl Chloride Cell Characterization through Parametric Analysis," J. Power Sources, 52, 173-178 (1994).
  18. R. A. Leising, W. C. Thiebolt III, and E. S. Takeuchi*, " Solid State Characterization of Reduced Silver Vanadium Oxide from the Li/SVO Discharge Reaction," Inorganic Chemistry, 33, 5733-5740 (1994).
  19. E. S. Takeuchi*, "Reliability Systems for Implantable Cardiac Defibrillator Batteries," J. Power Sources, 54, 115-119 (1995).
  20. H. Gan and E. S. Takeuchi*, "Lithium Electrodes With and Without CO2 Treatment: Electrochemical Behavior and Effect on High Rate Lithium Battery Performance," J. Power Sources, 62, 45-50 (1996).
  21. E. S. Takeuchi* and R. A. Leising, "Synthesis and Characterization of a New Trimetallic Cathode Material for Lithium Batteries," J. Power Sources, 68, 730-734 (1997).
  22. E. S. Takeuchi*, M. Palazzo, H. Gan, R. A. Leising, and S. M. Davis, "Anode Passivation and Electrolyte Solvent Disproportionation: Mechanism of Ester Exchange in Lithium Ion Batteries," J. Electrochem. Soc., 144, 1944-1948 (1997).
  23. E. S. Takeuchi* and Robert Rubino, “The Study of Irreversible Capacity in Lithium-ion Anodes prepared with Thermally Oxidized Graphite,” J. Power Sources, 81-82, 373-377 (1999).
  24. K.J. Takeuchi*, A.C. Marschilok, S.M. Davis, R.A. Leising, E.S. Takeuchi*, “Silver Vanadium Oxides and Related Battery Applications,” Coordination Chemistry Reviews, 219-221, 283-310 (2001).
  25. C.J. Meyers, S.D. Shah, S. C. Patel, R.M. Sneeringer, C.A. Bessel*, N.R. Dollahon, R. A. Leising, E. S. Takeuchi*, “Templated Synthesis of Carbon Materials from Zeolites, (Y, Beta and ZSM-5) and a Montmorillonite Clay (K10): Physical and Electrochemical Characterization,” J. Phys. Chem., 105, 2143-2152, (2001).
  26. R.A. Leising, M.J. Palazzo, E.S. Takeuchi*, K.J. Takeuchi*, “A Study of the Overcharge Reaction on Lithium-ion Batteries,” J. Power Sources, 97-98, 681-683 (2001).
  27. R.A. Leising, M.J. Palazzo, E.S. Takeuchi*, K.J. Takeuchi*, “Abuse Testing of Lithium Ion Batteries: Characterization of the Overcharge Reaction of LiCoO2/Graphite Cells,” J. Electrochem. Soc., 148, A838-A844 (2001).
  28. R. S. Rubino, H. Gan and E. S. Takeuchi*, “A Study In Capacity Fade in Cylindrical and Prismatic Lithium-Ion Batteries,” J. Electrochem. Soc., 148, A1029-A1033 (2001).
  29. E.S. Takeuchi* and R.A. Leising, “Lithium Batteries for Biomedical Applications,” MRSBulletin, 27, 624-627 (2002).
  30. K. J. Takeuchi*, R. A. Leising, M. J. Palazzo, A. C. Marschilok and E. S. Takeuchi, “Advanced Lithium Batteries for Implantable Medical Devices: Mechanistic Study of SVO Cathode Synthesis,” J. Power Sources, 119-121, 973-978 (2003).
  31. R. J. Brodd*, K. R. Bullock, R. A. Leising, R. L. Middaugh, J. R. Miller and E. S. Takeuchi*, “Batteries 1977 to 2002,” J. Electrochem. Soc., 151, K-1-K11 (2004).
  32. K. J. Takeuchi*, A. C. Marschilok, S. M. Davis, R. A. Leising and E. S. Takeuchi, “Novel Impact of Aging on the Electrochemistry of CO2 Treated Synthetic Graphite,” J. Electrochem. Soc., 151, A1188-A1195 (2004).
  33. H. Gan, R. S. Rubino, and E. S. Takeuchi*, “Dual-Chemistry Cathode System For High-Rate Pulse Application,” J. Power Sources, 146, 101-106 (2005).
  34. K. J. Takeuchi*, A. C. Marschilok, S. M. Davis, R. A. Leising, and E. S. Takeuchi, “Heat Treatment of Synthetic Graphite under Argon and Effect on Li-ion Electrochemistry,” J. Electrochem. Soc., 152, A147-A151 (2005).
  35. K. J. Takeuchi*, A. C. Marschilok, R. A. Leising and E. S. Takeuchi, “Novel Hydrothermal Synthesis of Silver Vanadium Oxide Acicular Nanofibers,” J. Power Sources, in press (2006).
  36. K. J. Takeuchi*, A. C. Marschilok, G. C. Lau, R. A. Leising, and E. S. Takeuchi, “Carbon Structure / Function Relationship: Characterization and Electrochemistry of Carbon Nanofibers,” J. Power Sources, 157(1), 543-549 (2006).
  37. S. Davis, E. S. Takeuchi, W. Tiedemann and J. Newman, “Simulation of the Li/CFx System,” J. Electrochem. Soc., 154(5), A477-A480 (2007).
  38. N. D. Leifer, A. Colon, K. Martocci, S. G. Greenbaum, F. M. Alamgir, T. B. Reddy, N. R. Gleason, R. A. Leising, E. S. Takeuchi, “Nuclear Magnetic Resonance and X-Ray Absorption Spectroscopic Studies of Lithium Insertion in Silver Vanadium Oxide,” J. Electrochem. Soc., 154(6), A500-A506 (2007).
  39. S. Davis, E. S. Takeuchi, W. Tiedemann and J. Newman, “Simulation of Pulse Discharge of the Li/CFx System,” J. Electrochem. Soc , in press.
  40. S. Davis, E. S. Takeuchi, W. Tiedemann and J. Newman, “Prediction of End of Discharge of the Li/CFx System,” J. Electrochem. Soc., in preparation.

Patents

  1. P. Keister, R. Mead, B. Muffoletto, E. Takeuchi, S. Ebel, M. Zelinsky and J. Greenwood, "Nonaqueous Lithium Battery," U. S. Patent # 4,830,940 (1989).
  2. P. Keister, R. Mead, B. Muffoletto, E. Takeuchi, S. Ebel, M. Zelinsky and J. Greenwood, "Nonaqueous Lithium Battery," U. S. Patent # 4,964,877 (1990).
  3. E. S. Takeuchi and C. J. Post, "Electrochemical Cell With Improved Efficiency Serpentine Electrode," U. S. Patent # 5,147,737 (1992).
  4. E. S. Takeuchi and W. C. Thiebolt, "Method Of Pretreating A Cathode For Attaining A Stable Voltage Upon Cell Assembly," U. S. Patent # 5,298,349 (1994).
  5. E. S. Takeuchi and W. C. Thiebolt, "Preparation Of Silver Vanadium Oxide Cathodes Using Ag(O) And V2O5 As Starting Materials," U. S. Patent # 5,389,472 (1995).
  6. M. Pyszczek, C. Frysz, S. Ebel and E. S. Takeuchi, "Woven Synthetic Halogenated Polymer Fibers As Separator Material For Electrochemical Cells," U. S. Patent # 5,415,959 (1995).
  7. E. S. Takeuchi, R. Mead and C. Post, "Process For Making Cathode Components For Use In Electrochemical Cells," U. S. Patent # 5,435,874 (1995).
  8. E. S. Takeuchi and R. A. Leising, "Carbon Electrode For A Nonaqueous Secondary Electrochemical Cell," U. S. Patent # 5,443,928 (1995).
  9. M. F. Pyszczek, E. S. Takeuchi, and M. J. Kane, "Use Of Standard Uniform Electrode Components In Cells Of Either High Or Low Surface Area Design," U. S. Patent # 5,468,569 (1995).
  10. E. S. Takeuchi and R. A. Leising, "Metal Oxide Composite Cathode Material For High Energy Density Batteries," U. S. Patent # 5,472,810 (1995).
  11. E. S. Takeuchi and M. F. Pyszczek, "Electrochemical Cell Design For Use Under High Shock And Vibration Conditions," U. S. Patent # 5,474,859 (1995).
  12. E. S. Takeuchi and W. C. Thiebolt III, "Preparation Of Silver Vanadium Oxide Cathodes Using Ag 2O And V 2O 5 As Starting Materials," U. S. Patent # 5,498,494 (1996).
  13. E. S. Takeuchi and R. A. Leising, "Process For Making A Metal Oxide Composite Cathode Material For High Energy Density Batteries," U. S. Patent # 5,516,340 (1996).
  14. E. S. Takeuchi and M. F. Pyszczek, "Aqueous Blended Electrode Material For Use In Electrochemical Cells and Method Of Manufacture," U. S. Patent # 5,543,249 (1996).
  15. E. S. Takeuchi and R. A. Leising, "Cathode Material For Nonaqueous Electrochemical Cells," U. S. Patent # 5,545,497 (1996).
  16. E. S. Takeuchi and R. Mead, "Prismatic High Rate Cell," U. S. Patent # 5,549,717 (1996).
  17. E. S. Takeuchi and W. C. Thiebolt III, "Preparation Of Silver Vanadium Oxide Cathodes Utilizing Sol-Gel Technology," U. S. Patent # 5,558,680 (1996).
  18. S. A. Smesko, E. S. Takeuchi and S. J. Ebel, " Battery Design For Achieving End-Of-Life Indication During Electrical Discharge," U. S. Patent # 5,569,553 (1996).
  19. E. S. Takeuchi and K. Walsh, "Reduced Voltage Delay Additive For Nonaqueous Electrolyte In Alkali Metal Electrochemical Cells," U. S. Patent # 5,569,558 (1996).
  20. E. S. Takeuchi, R. Mead and C. J. Post, "Cathode Component For Use In Electrochemical Cells," U. S. Patent # 5,571,640 (1996).
  21. E. S. Takeuchi and K. Walsh, "High Pulse Power Cell," U. S. Patent # 5,580,683 (1996).
  22. W. R. Brown, S. A. Smesko, and E. S. Takeuchi, "Oxidized Alkali Metal-Halogen Cell Cases," U. S. Patent #5,604,055 (1997).
  23. E. S. Takeuchi and K. Walsh, "Medium And High Discharge Rate Combination Battery And Method," U. S. Patent # 5,614,331 (1997).
  24. D. M. Spillman and E. S. Takeuchi, "Separator Insert For Electrochemical Cells," U. S. Patent # 5,631,102 (1997).
  25. E. S. Takeuchi and R. A. Leising, "Nonaqueous Electrochemical Cell Having A Mixed Cathode And Method Of Preparation," U. S. Patent # 5,639,577 (1997).
  26. E. S. Takeuchi and S. A. Smesko, "Nonaqueous Li/CFx Cell With Improved Delivered Capacity," U. S. Patent # 5,667,910 (1997).
  27. S. J. Ebel, S. A. Smesko and E. S. Takeuchi, “Mixed Cathode Formulation For Achieving End Of Life Indication,” U. S. Patent # 5,667,916 (1997).
  28. E. S. Takeuchi and R. A. Leising, "Alternate Synthetic Methods For Mixed Metal Oxide Cathode Materials," U. S. Patent # 5,670,276 (1997).
  29. R. A. Leising and E. S. Takeuchi, "Preparation Of Silver Vanadium Oxide Using Nitric Oxide With Oxide Starting Materials," U. S. Patent # 5,695,892 (1997).
  30. S. A. Smesko, E. S. Takeuchi and W. M. Paulot, “Alkali Metal Electrochemical Cell With Improved Energy Density,” U. S. Patent # 5,716,728 (1998).
  31. H. Gan and E. S. Takeuchi, “Organic Carbonate Additives For Nonaqueous Electrolyte In Alkali Metal Electrochemical Cells,” U. S. Patent # 5,753,389 (1998).
  32. H. Gan and E. S. Takeuchi, “Ternary Solvent Nonaqueous Organic Electrolyte For Alkali Metal Electrochemical Cells,” U. S. Patent # 5,776,635 (1998).
  33. E. S. Takeuchi and W. C. Thiebolt, “Discharge Promoter Mixture For Reducing Cell Swelling In Alkali Metal Electrochemical Cells,” U. S. Patent # 5,807,645 (1998).
  34. S. A. Smesko and E. S. Takeuchi, “Novel Separators For Nonaqueous Li/CFx Electrochemical Cells,” U. S. Patent # 5,902,696 (1999).
  35. D. M. Spillman and E. S. Takeuchi, “Electrochemical Cell Having Multiple Electrodes With Differing Discharge Rate Regions,” U. S. Patent # 5,935,724 (1999).
  36. D. M. Spillman and E. S. Takeuchi, “Electrochemical Cell Having Multiplate And Jellyroll Electrodes With Differing Discharge Rate Regions,” U. S. Patent # 5,935,728 (1999).
  37. H. Gan, M. Palazzo and E. S. Takeuchi, “Method Of Synthesizing Unsymmetric Organic Carbonates And Preparing Nonaqueous Organic Electrolytes For Alkali Ion Electrochemical Cells,” U. S. Patent # 5,962,720 (1999).
  38. H. Gan, E. S. Takeuchi, “Use Of Double Cells to Power An Implantable Medical Device,” U. S. Patent # 6,008,625 (1999).
  39. H. Gan and E. S. Takeuchi, “Organic Sulfate Additives For Nonaqueous Electrolyte In Alkali Metal Electrochemical Cells,” U. S. Patent # 6,013,394 (2000).
  40. H. Gan and E. S. Takeuchi, “Organic Nitrite Additives For Nonaqueous Electrolyte In Alkali Metal Electrochemical Cells,” U. S. Patent # 6,027,827 (2000).
  41. H. Gan, M. Palazzo and E. S. Takeuchi, “Method For Preparing Nonaqueous Electrolytes For Alkali Ion Electrochemical Cells Containing Unsymmetric Organic Carbonates,” U.S. Patent # 6,057,062 (2000).
  42. H. Gan and E. S. Takeuchi, “Inorganic And Organic Nitrate Additives For Nonaqueous Electrolyte In Alkali Metal Electrochemical Cells,” U. S. Patent # 6,060,184 (2000).
  43. H. Gan and E. S. Takeuchi, “Dicarbonate Additives For Nonaqueous Electrolyte In Alkali Metal Electrochemical Cells,” U. S. Patent # 6,063,526 (2000).
  44. H. Gan and E. S. Takeuchi, “Organic Phosphate Additives For Nonaqueous Electrolyte In Alkali Metal Electrochemical Cells,” U. S. Patent # 6,068,950 (2000).
  45. H. Gan and E. S. Takeuchi, “Implantable Medical Device Powered By Double Cells,” U. S. Patent # 6,087,809 (2000).
  46. H. Gan and E. S. Takeuchi, “Phosphonate Additives For Nonaqueous Electrolyte In Alkali Metal Electrochemical Cells,” U. S. Patent # 6,096,447.
  47. E. S. Takeuchi and R. A. Leising, “Hydrogen Fluoride Additive For Nonaqueous Electrolyte In Alkali Metal Electrochemical Cells,” U.S. Patent # 6,117,591 (2000).
  48. E. S. Takeuchi and R. Mead, “Prismatic High Rate Cell,” U. S. Patent # 6,136,466 (2000).
  49. H. Gan and E. S. Takeuchi, “Nitrate Additives For Nonaqueous Rechargeable Cells,” U. S. Patent # 6,136,477 (2000).
  50. E. S. Takeuchi and W. C. Thiebolt III, “Autoclavable Electrochemical Cell,” U. S. Patent # 6,150,057 (2000).
  51. H. Gan and E. S. Takeuchi, “Nonaqueous Organic Electrolytes For Low Temperature Discharge Of Rechargeable Alkali Metal Electrochemical Cells,” U. S. Patent # 6,153,338 (2000).
  52. D. M. Spillman and E. S. Takeuchi, “Electrochemical Cell Having Multiplate And Jellyroll Electrodes With Differing Discharge Rate Regions,” U. S. Patent # 6,165,638 (2000).
  53. E. S. Takeuchi, N. W. Waite and K. C. Syracuse, “Alternate Fuel Gauge For An Alkali Metal Electrochemical Cell,” U. S. Patent # 6,166,524 (2000).
  54. H. Gan and E. S. Takeuchi, “Control Of Swelling In Alkali Metal Electrochemical Cells,” U. S. Patent # 6,171,729 (2001).
  55. H. Gan and E. S. Takeuchi, “Dicarbonate Additives For Nonaqueous Electrolyte Rechargeable Cells,” U. S. Patent # 6,174,629 (2001).
  56. H. Gan and E. S. Takeuchi, “Method For Reducing Voltage Delay In An Alkali Metal Electrochemical Cell Activated With A Nonaqueous Electrolyte Having A Sulfate Additive.” U. S. Patent # 6,180,283 (2001).
  57. H. Gan and E. S. Takeuchi, “Phosphonate Additives For Nonaqueous Electrolyte In Rechargeable Cells,” U. S. Patent # 6,200,701 (2001).
  58. H. Gan and E. S. Takeuchi, “Phosphate Additives For Nonaqueous Electrolyte Rechargeable Electrochemical Cells,” U. S. Patent # 6,203,942 (2001).
  59. H. Gan and E. S. Takeuchi, “Organic Nitrite Additives For Nonaqueous Organic Electrolytes Lithium Ion Rechargeable Batteries,” U. S. Patent # 6,210,839 (2001).
  60. E. S. Takeuchi, R. A. Leising and H. Gan, “Alkali Metal Electrochemical Cell Having An Improved Cathode Activated With A Nonaqueous Electrolyte Having An Organic Carbonate Additive,” U. S. Patent # 6,221,534 (2001).
  61. E. S. Takeuchi and W. C. Thiebolt III, “Annealing Of Mixed Metal Oxide Electrodes To Reduce Polarization Resistance,” U. S. Patent # 6,228,534 (2001).
  62. D. M. Spillman, E. S. Takeuchi and H. Gan, “Hermetically Sealed Lithium-Ion Secondary Electrochemical Cell,” U. S. Patent # 6,245,464 (2001).
  63. D. M. Spillman and E. S. Takeuchi, “Electrochemical Cell Having Multiplate Electrodes With Differing Discharge Rate Regions,” U. S. Patent # 6,258,473 (2001).
  64. H. Gan and E. S. Takeuchi, “Method For Reducing Voltage Delay In An Alkali Metal Electrochemical Cell Activated With A Nonaqueous Electrolyte Having A Sulfate Additive,” U. S. Patent # 6,265,106 (2001).
  65. H. Gan and E. S. Takeuchi, “Method For Reducing Voltage Delay In An Alkali Metal Electrochemical Cell Activated With A Nonaqueous Electrolyte Having a Phosphate Additive,” U. S. Patent # 6,274,269 (2001).
  66. C. A. Frysz, S. A. Smesko, P. A. Kreidler, W. R. Brown and E. S. Takeuchi, “Cobalt Based Alloys As Positive Electrode Current Collectors In Nonaqueous Electrochemical Cells,” U. S. Patent # 6,306,544 (2001).
  67. H. Gan and E. S. Takeuchi, “Sulfite Additives For Nonaqueous Electrolyte Rechargeable Cells,” U. S. Patent # 6,350,542 (2002).
  68. H. Gan and E. S. Takeuchi, “Sulfate Additives For Nonaqueous Electrolyte Rechargeable Cells,” U. S. Patent # 6,350,546 (2002).
  69. E. S. Takeuchi, N. M.. Waite, and K. C. Syracuse, “Fuel Gauge For An Alkali Metal Electrochemical Cell,” U. S. Patent # 6,377,850 (2002).
  70. H. Gan and E.S. Takeuchi, “Alkali Metal Electrochemical Cell Activated With A Nonaqueous Electrolyte Having A Sulfite Additive,” U. S. Patent # 6,403,256 (2002).
  71. D. M. Spillman, C. A. Frysz, H. A. Hornung II, and E. S. Takeuchi, “High Temperature Lithium Oxyhalide Electrochemical Cell,” U. S. Patent # 6,410,181 (2002).
  72. E. S. Takeuchi and R. A. Leising, “Melt Impregnation Preparation Of Mixed Metal Oxide,” U. S. Patent # 6,413,669 (2002).
  73. H. Gan and E. S. Takeuchi, “Electrochemical Cell Activated With A Nonaqueous Electrolyte Having A Sulfate Additive,” U. S. Patent # 6,444,360 (2002).
  74. J. M. Probst, E. S. Takeuchi and S. A. Smesko, “Enhanced Capacity Li/CFx Electrochemical Cell,” U. S. Patent # 6,451,483 (2002).
  75. E. S. Takeuchi, “Thermal Protection Separator For Alkali Metal Batteries,” U. S. Patent # 6,475,666 (2002).
  76. H. Gan and E. S. Takeuchi, “Phosphonate Or Phosphite Additives For Nonaqueous Organic Electrolytes Lithium Ion Rechargeable Batteries,” U. S. Patent # 6,495,285 (2002).
  77. H. Gan and E. S. Takeuchi, “Electrochemical Cell Having An Electrode With A Phosphate Additive In The Electrode Active Mixture,” U. S. Patent # 6,511,772 (2003).
  78. H. Gan and E. S. Takeuchi, “Electrochemical Cell Having An Electrode With A Nitrite Additive In The Electrode Active Mixture,” U. S. Patent # 6,528,207 (2003).
  79. H. Gan and E. S. Takeuchi, “Electrochemical Cell Having An Electrode With A Phosphonate Additive In The Electrode Active Mixture,” U. S. Patent # 6,537,698 (2003).
  80. D. M. Spillman and E. S. Takeuchi, “Electrochemical Lithium Ion Secondary Cell Having Multiplate Electrodes With Differing Discharge Rate Regions,” U. S. Patent # 6,541,140 (2003).
  81. C. A. Frysz, S. A. Smesko, P. A. Kreidler, W. R. Brown, and E. S. Takeuchi, “Cobalt-Based Alloys As Positive Electrode Current Collectors In Nonaqueous Electrochemical Cells,” U. S. Patent # 6,541,158 (2003).
  82. R. A. Leising and E. S. Takeuchi, “Mixed Phase Metal Oxide And Method Of Preparation,” U. S. Patent # 6,558,845 (2003).
  83. H. Gan and E. S. Takeuchi, “Electrochemical Cell Having An Electrode With A Nitrate Additive In The Electrode Active Mixture,” U. S. Patent # 6,562,515 (2003).
  84. E. S. Takeuchi and R. A. Leising, “Synthetic Method For Preparation Of A Low Surface Area Single Phase Silver Vanadium Oxide,” U. S. Patent # 6,566,007 (2003).
  85. E. S. Takeuchi and R. T. Mead, “Prismatic High Rate Cell,” U. S. Patent # 6,569,558 (2003).
  86. D. M. Spillman, C. A. Frysz, H. A. Hornung II, and E. S. Takeuchi, “Electrochemical Cell With Novel Header Assembly,” U. S. Patent # 6,569,562 (2003).
  87. H. Gan and E. S. Takeuchi, “Electrochemical Cell Having An Electrode With A Dicarbonate Additive In The Electrode Active Mixture,” U. S. Patent # 6,586,135 (2003).
  88. D. Spillman, H. Gan, and E. S. Takeuchi, “Manufacturing Process For Improved Discharge Of Lithium-Containing Electrochemical Cells,” U. S. Patent # 6,593,029 (2003).
  89. H. Gan and E. S. Takeuchi, “Electrochemical Cell Having An Electrode With A Carbonate Additive In The Electrode Active Mixture,” U. S. Patent # 6,605,385 (2003).
  90. H. Gan and E. S. Takeuchi, “Application Of -SVO And Mixture Of -SVO/-SVO In High Rate Electrochemical Lithium Cells Containing SVO/CFx/SVO Sandwich Cathodes,” U. S. Patent # 6,607,861 (2003).
  91. D. Spillman and E. S. Takeuchi, “Electrochemical Lithium Ion Secondary Cell Having Multiplate And Jellyroll Electrodes With Differing Discharge Rate Regions,” U. S. Patent # 6,623,884 (2003).
  92. H. Gan and E. S. Takeuchi, “Silver Vanadium Oxide Cathode Material For High Discharge Rate Lithium Cells,” U. S. Patent # 6,623,887 (2003).
  93. D. M. Spillman and E. S. Takeuchi, “Electrochemical Lithium Ion Secondary Cell Having A Scalloped Electrode Assembly,” U. S. Patent # 6,635,381 (2003).
  94. E. S. Takeuchi, R. S. Rubino and H. Gan, “Secondary Cell With High Rate Pulse Capability,” U. S. Patent # 6,641,953 (2003).
  95. H. Gan and E. S. Takeuchi, “Double Current Collector Cathode Design Using The Same Active Material In Varying Thicknesses For Alkali Metal Or Ion Electrochemical Cells,” U. S. Patent # 6,673,487 (2004).
  96. H. Gan and E. S. Takeuchi, “Double Current Collector Cathode Design Using The Same Active Material In Varying Formulations For Alkali Metal Or Ion Electrochemical Cells,” U. S. Patent # 6,673,493 (2004).
  97. D. M. Spillman and E. S. Takeuchi, “Electrochemical Cell Having Multiplate Electrodes With Differing Discharge Rate Regions,” U. S. Patent # 6,677,077 (2004).
  98. R. A. Leising and E. S. Takeuchi, “Method For Providing A Cathode Of A Mixed Phase Metal Oxide,” U. S. Patent # 6,685,752 (2004).
  99. H. Gan and E. S. Takeuchi, “Double Current Collector Cathode Design Using Mixtures Of Two Active Materials For Alkali Metal Or Ion Electrochemical Cells,” U. S. Patent # 6,692,865 (2004).
  100. H. Gan and E. S. Takeuchi, “Double Current Collector Cathode Design For Alkali Metal Electrochemical Cells Having Short Circuit Safety Characteristics,” U. S. Patent # 6,692,871 (2004).
  101. R. A. Leising and E. S. Takeuchi, “Electrochemical Cell Having A Cathode Of Mixed Phase Metal Oxide And Method Of Preparation,” U. S. Patent # 6,696,201 (2004).
  102. H. Gan and E. S. Takeuchi, “Powder Process For Double Current Collector Screen Cathode Preparation,” U. S. Patent # 6,727,022 (2004).
  103. R. A. Leising and E. S. Takeuchi, “Anode For Nonaqueous Secondary Electrochemical Cells,” U. S. Patent # 6,730,437 (2004).
  104. E. S. Takeuchi, “Autoclavable Electrochemical Cell,” U.S. Patent # 6,733,928 (2004).
  105. H. Gan, E. S. Takeuchi, “Double Current Collector Negative Electrode Design For Alkali Metal Ion Electrochemical Cells,” U.S. Patent # 6,737,191 (2004).
  106. H. Gan, S. A. Smesko and E. S. Takeuchi, “Pellet Process For Double Current Collector Screen Cathode Preparation,” U. S. Patent # 6,743,547 (2004).
  107. H. Gan and E. S. Takeuchi, “Double Current Collector Cathode Design Using Chemically Similar Active Materials For Alkali Metal Electrochemical Cells,” U. S. Patent # 6,743,550 (2004).
  108. S. M. Davis, D. M. Spillman and E. S. Takeuchi, “Method Of Using A Cell,” U. S. Patent # 6,744,238 (2004).
  109. H. Gan, E. S. Takeuchi and R. Rubino, “Nonaqueous Organic Electrolytes For Low Temperature Discharge Of Rechargeable Electrochemical Cells,” U. S. Patent # 6,746,804 (2004).
  110. M. Palazzo and E. S. Takeuchi, “Use Of Heat-Treated Electrodes Containing A Polyamic Acid-PVDF Binder Mixture,” U. S. Patent #6,759,164 (2004).
  111. H. Gan, E. S. Takeuchi and R. Rubino, “Organic Carbonate Additives For Nonaqueous Electrolyte Rechargeable Electrochemical Cells,” U. S. Patent # 6,759,170 (2004).
  112. W. M. Paulot, M. J. Roy, G. L. Freitag, D. J. Frustaci, H. Gan and E. S. Takeuchi, “Carbon-Coated Titanium Current Collectors For Use In Alkali Metal Electrochemical Cells,” U. S. Patent # 6,767,670 (2004).
  113. D. M. Spillman and E. S. Takeuchi, “Lithium Oxyhalide Cell With Improved Safety And Voltage Delay Characteristics,” U. S. Patent # 6,780,542 (2004).
  114. H. Gan, S. A. Smesko, E. S. Takeuchi and S. M. Davis, “Control Of Cell Swelling By The Proper Choice Of Carbon Monofluoride (CFx) Cathode Materials In High Rate Defibrillator Cells,” U. S. Patent # 6,783,888 (2004).
  115. H. Gan, E. S. Takeuchi and R. S. Rubino, “Process For Fabricating Continuously Coated Electrodes On A Porous Current Collector And Cell Designs Incorporating Said Electrodes,” U. S. Patent # 6,790,561 (2004).
  116. R. A. Leising and E. S. Takeuchi, “Preparation of e -Phase Silver Vanadium Oxide From g -Phase SVO Starting Material,” U. S. Patent # 6,797,017 (2004).
  117. E. S. Takeuchi, R. A. Leising and M. Palazzo, “Electrochemical Cell Having An Electrode Of Silver Vanadium Oxide Coated To A Current Collector,” U. S. Patent # 6,797,019 (2004).
  118. S. Davis and E. S. Takeuchi, “Matching Cells For A Battery Pack,” U. S. Patent # 6,801,016 (2004).
  119. E. S. Takeuchi and M. Palazzo, “Silver Vanadium Oxide Having Low Internal Resistance And Method Of Manufacture,” U. S. Patent # 6,803,147 (2004).
  120. H. Gan and E. S. Takeuchi, “Highly Conductive And Stable Nonaqueous Electrolyte For Lithium Electrochemical Cells,” U. S. Patent # 6,844,115 (2005).
  121. R. Leising and E. S. Takeuchi, “Preparation For A Cathode Material By A Two-Step Reduction/Oxidation Synthesis Process,” U. S. Patent # 6,872,490 (2005).
  122. H. Gan, E. S. Takeuchi and R. Rubino, “Phosphate Additives For Nonaqueous Electrolyte Rechargeable Electrochemical Cells,” U. S. Patent # 6,919,141 (2005).
  123. H. Gan and E. S. Takeuchi, “SVO/CFx Parallel Cell Design With The Same Casing,” U. S. Patent # 6,926,991 (2005).
  124. K. Syracuse, N. Waite, H. Gan and E. S. Takeuchi, “Discharge Methodologies For Optimizing The Performance Of Lithium/Silver Vanadium Oxide Cells,” U. S. Patent # 6,930,468 (2005).
  125. H. Gan and E. S. Takeuchi, “Method For Electrode Design For Implantable Device Applications That Require The Elective Replacement Indicator (ERI),” U. S. Patent # 6,936,379 (2005).
  126. E. S. Takeuchi, “Wound Element Electrode Assembly Design For Use In Prismatic Case Electrochemical Cells,” U. S. Patent # 6,951,576 (2005).
  127. K. Syracuse, N. Waite, H. Gan and E. S. Takeuchi, “Methods o Improve Efficiency Of Lithium/Silver Vanadium Oxide Cell Discharge Energy In Implantable Medical Device Applications,” U. S. Patent # 6,982,543 (2006).
  128. R. S. Rubino, H. Gan, J. Prinzbach and E. S. Takeuchi, “Hermetically Sealed Coin Cell,” U. S. Patent # 6,984,468 (2006).
  129. E. S. Takeuchi, B. Platt, S. A. Smesko, E. Ziarniak and M. Roy, “Noble Metals Coated On Titanium Current Collectors For Use In Nonaqueous CFx Cells,” U. S. Patent # 7,005,214 (2006).
  130. R. S. Rubino, H. Gan, J. Prinzbach and E. S. Takeuchi, “Method For Providing A Hermetically Sealed Coin Cell,” U. S. Patent # 7,022,146 (2006).
  131. M. Palazzo, E. S. Takeuchi and R. Leising, “Electrochemical Treatment Method To Reduce Voltage Delay And Cell Resistance In Lithium/Silver Vanadium Oxide Cells,” U. S. Patent # 7,026,791 (2006).
  132. H. Gan and E. S. Takeuchi, “Organic Cyclic Carbonate Additives For Nonaqueous Electrolyte In Alkali Metal Electrochemical Cells, “ U. S. Patent # 7,033,707 (2006).
  133. R. S. Rubino, H. Gan and E. S. Takeuchi, “Double Current Collector Positive Electrode For Alkali Metal Ion Electrochemical Cells,” U. S. Patent # 7,052,804 (2006).
  134. H. Gan and E. S. Takeuchi, “Method For Using High Rate Lithium Electrochemical Cell Containing SVO/CFx/SVO Sandwich Cathodes Having –gamma-SVO and mixture of gamma/epsilon-SVO,” U. S. Patent # 7,056,358 (2006).
  135. E. S. Takeuchi and K. C. Syracuse, Lithium/Carbon Monofluoride (Li/CFx) Electrochemical Cell Projection Model,” U. S. Patent #7,068,036 (2006).
  136. K. Syracuse, H. Gan, N. Waite and E. S. Takeuchi, “Method for Estimating Long Term End-of-Life Characteristics Using Short Term Date for Lithium/Silver Vanadium Oxide Cells,” U. S. Patent #7,092,830 (2006).
  137. E. S. Takeuchi and H. Gan, “Efficient Electrode Assembly Design for Cells with Alkali Metal Anodes,” U. S. Patent # 7,108,942 (2006).
  138. R. A. Leising and E. S. Takeuchi,”Preparation of Copper Silver Vanadium Oxide from gamma-phase SVO Starting Material,” U. S. Patent # 7,118,829 (2006).
  139. R. A. Leising and E. S. Takeuchi, “Silver Vandium Oxide Provided with a Metal Oxide Coating,” U. S. Patent # 7,211,349 (2007).

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