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특허 상세정보

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내보내기 페이스북 공유 카카오톡 공유

Method of making membrane-electrode assemblies for electrochemical cells and assemblies made thereby

특허상세정보
국가/구분 United States(US) Patent 등록
국제특허분류(IPC7판) H01M-008/10    H01M-004/96    H01M-004/92   
미국특허분류(USC) 429/33 ; 429/41 ; 429/42 ; 429/44
출원번호 US-0102189 (1993-08-05)
발명자 / 주소
  • Swathirajan Sundararajan (Troy MI) Mikhail Youssef M. (Sterling Heights MI)
출원인 / 주소
  • General Motors Corporation (Detroit MI 02)
인용정보 피인용 횟수 : 109  인용 특허 : 0
초록

A method of making a combination, unitary, membrane and electrode assembly having a solid polymer electrolyte membrane, and first and second electrodes at least partially embedded in opposed surfaces of the membrane. The electrodes each comprise a respective group of finely divided carbon particles, very finely divided catalytic particles supported on internal and external surfaces of the carbon particles and a proton conductive material intermingled with the catalytic and carbon particles. A first group of finely divided carbon particles forming the fir...

대표
청구항

A method of making a combination electrolyte and electrode structure for an electrochemical cell having an electrolyte membrane of solid polymer proton conductive material with first and second spaced apart opposed surfaces and first and second electrodes at the respective first and second surface, comprising: a) forming a slurry of proton conductive material and at least one group of finely divided carbon particles and very finely divided catalytic particles supported on and in the carbon particles; b) applying the slurry onto a first surface of the mem...

이 특허를 인용한 특허 (109)

  1. Ji, Chunxin; Fleming, Gerald J.; Fleming, legal representative, Margaret; Mathias, Mark, Acrylic fiber bonded carbon fiber paper as gas diffusion media for fuel cell.
  2. Sennoun, Mohammed E; Reid, Robert C, Active control strategy for PEM fuel cell liquid water evacuation.
  3. Dearnaley Geoffrey ; Arps James H., Amorphous carbon comprising a catalyst.
  4. Narang Subhash C. (Redwood City CA) Ventura Susanna C. (Los Alto CA), Batteries containing single-ion conducting solid polymer electrolytes.
  5. Fuller, Timothy J.; MacKinnon, Sean M; Schoeneweiss, Michael R.; Gittleman, Craig S., Blends of low equivalent molecular weight PFSA ionomers with Kynar 2751.
  6. Dearnaley,Geoffrey; Arps,James H., Catalytic coatings and fuel cell electrodes and membrane electrode assemblies made therefrom.
  7. Tsang,Joseph W; Prasad,Ravi, Co-catalyst proton exchange membrane fuel cell utilizing borohydride fuels.
  8. Clingerman Bruce J. ; Mowery Kenneth D. ; Ripley Eugene V., Combustor air flow control method for fuel cell apparatus.
  9. Doan, Tien M.; Clingerman, Bruce J., Control apparatus and method for efficiently heating a fuel processor in a fuel cell system.
  10. Bruce J. Clingerman ; Donald H. Keskula, Controlled shutdown of a fuel cell.
  11. Raiser Stephen,DEX, DC/DC converter for a fuel cell having a non-linear inductor.
  12. Raiser Stephen W.,DEX, DC/DC converter for a fuel cell providing both a primary and auxiliary output voltage.
  13. Skala, Glenn W.; Rock, Jeffrey A., Device and method to expand operating range of a fuel cell stack.
  14. Skala,Glenn W; Rock,Jeffrey A, Device and method to expand operating range of a fuel cell stack.
  15. Spink, Scott A.; Lott, David R.; Fuglevand, William A., Direct liquid fuel cell.
  16. Brundage, Mark A; Yu, Taichiang P, Dual function CO clean-up/sorber unit.
  17. Frederiksen, Henning; Yde Andersen, Steen; Grahl Madsen, Laila; Lundsgaard, Joergen Schjerning, Dual function, bipolar separator plates for fuel cells.
  18. Vyas, Gayatri; Swathirajan, Swathy; Cheng, Yang T.; Mikhail, Youssef M., Electrode and membrane-electrode assemblies for electrochemical cells.
  19. Eiichi Yasumoto JP; Hisaaki Gyoten JP; Makoto Uchida JP; Yasushi Sugawara JP; Yasutomo Funakoshi JP; Kouji Nakagawa JP; Toshihiro Matsumoto JP, Electrode for fuel cell and method of producing the same.
  20. Mussell Robert D., Electrode ink for membrane electrode assembly.
  21. Marsiglio, Carl M.; Fuss, Robert L., Elongated elastomeric connector and method.
  22. Marsiglio, Carl M.; Fuss, Robert L., Elongated elastomeric connector and method.
  23. Sekharipuram Narayanan ; Subbarao Surampudi, Fabrication of a membrane having catalyst for a fuel cell.
  24. Kenneth D. Mowery ; Eugene V. Ripley, Flexible method for monitoring fuel cell voltage.
  25. Fuglevand William A. ; DeVries Peter D. ; Lloyd Greg A. ; Lott David R. ; Scartozzi John P., Fuel cell and method for controlling same.
  26. Fuglevand,William A.; DeVries,Peter D.; Lloyd,Greg A.; Lott,David R.; Scartozzi,John P., Fuel cell and method for controlling same.
  27. Swathirajan, Swathy; Merzougui, Belabbes; Yu, Paul Taichiang, Fuel cell and method for reducing electrode degradation during startup and shutdown cycles.
  28. Brady, Brian K.; Fly, Gerald W., Fuel cell bipolar plate having a conductive foam as a coolant layer.
  29. Fuglevand, William A., Fuel cell power system and method of controlling a fuel cell power system.
  30. Fuglevand,William A., Fuel cell power system and method of controlling a fuel cell power system.
  31. Rapaport, Pinkhas A.; Rock, Jeffrey A.; Bosco, Andrew D.; Salvador, John P.; Gasteiger, Hubert A.; Paine, Lesley A., Fuel cell stack design and method of operation.
  32. Rapaport,Pinkhas A; Rock,Jeffrey A; Bosco,Andrew D; Salvador,John P; Paine,Lesley A; Gasteiger,Hubert A, Fuel cell stack design and method of operation.
  33. Keskula, Donald H.; Doan, Tien M.; Clingerman, Bruce J., Fuel cell stack monitoring and system control.
  34. Keskula, Donald H.; Doan, Tien M.; Clingerman, Bruce J., Fuel cell stack monitoring and system control.
  35. Keskula Donald H. ; Doan Tien M. ; Clingerman Bruce J., Fuel cell system logic for differentiating between rapid and normal shutdown commands.
  36. Bruce J. Clingerman ; Tien M. Doan ; Donald H. Keskula, Fuel cell system shutdown with anode pressure control.
  37. McElroy, James F., Fuel cell systems and methods.
  38. Donald H. Keskula ; Bruce J. Clingerman ; Robert W. Chalfant, Fuel cell voltage monitoring and system control.
  39. Fly, Gerald W.; Brady, Brian K., Fuel cell with convoluted MEA.
  40. Fly, Gerald W.; Brady, Brian K., Fuel cell with variable porosity gas distribution layers.
  41. Fly, Gerald W; Brady, Brian K, Fuel cell with variable porosity gas distribution layers.
  42. Menashi, Jameel, Fuel cells and other products containing modified carbon products.
  43. Oelerich, Wolfgang, Fuel leakage vent for fuel source and valve interface.
  44. Donald H. Keskula ; Tien M. Doan ; Bruce J. Clingerman, Fuel processor temperature monitoring and control.
  45. Lundsgaard,Jorgen Schjerning; Kaas,John; Odgaard,Madeleine; Thomas,David M., Fuel-cell reactant delivery and circulation device.
  46. Serpico Joseph M. (East Greenbush NY) Ehrenberg Scott G. (Fishkill NY) Wnek Gary E. (Latham NY) Tangredi Timothy N. (Palm Harbor FL), Gas diffusion electrode.
  47. Fischer Andreas,DEX ; Wendt Hartmut,DEX ; Zuber Ralf,DEX, Gas diffusion electrode for membrane fuel cells and method of its production.
  48. Andreas-Schott, Benno; Brisbane, Roger M.; Chinnici, Anthony G., Integrated pressure relief valve for fuel cell stack.
  49. Lundsgaard, Jorgen Schjerning; Frederiksen, Henning, Interlocking isolator for fuel cells.
  50. William A. Fuglevand ; Peter D. DeVries ; Glen Alden Lloyd ; David R. Lott ; John P. Scartozzi, Ion exchange membrane fuel cell.
  51. Swathirajan Swathy ; Mikhail Youssef M., Layered electrode for electrochemical cells.
  52. Debe Mark K. ; Larson James M. ; Balsimo William V. ; Steinbach Andrew J. ; Ziegler Raymond J., Membrane electrode assemblies.
  53. Debe Mark K. ; Larson James M. ; Balsimo William V. ; Steinbach Andrew J. ; Ziegler Raymond J., Membrane electrode assemblies.
  54. Debe, Mark K.; Larson, James M.; Balsimo, William V.; Steinbach, Andrew J.; Ziegler, Raymond J., Membrane electrode assemblies.
  55. Mark K. Debe ; James M. Larson ; William V. Balsimo ; Andrew J. Steinbach ; Raymond J. Ziegler, Membrane electrode assemblies.
  56. Mark K. Debe ; James M. Larson ; William V. Balsimo ; Andrew J. Steinbach ; Raymond J. Ziegler, Membrane electrode assemblies.
  57. Odgaard, Madeline; Yde-Andersen, Steen, Membrane electrode assemblies for direct methanol fuel cells and methods for their production.
  58. David J. Hart-Predmore ; William H. Pettit, Methanol tailgas combustor control method.
  59. Bruce J. Clingerman ; Robert W. Chalfant, Method and apparatus for controlling combustor temperature during transient load changes.
  60. Wilkinson David P.,CAX ; Johnson Mark C. ; Colbow Kevin M.,CAX ; Campbell Stephen A.,CAX, Method and apparatus for reducing reactant crossover in a liquid feed electrochemical fuel cell.
  61. Wilkinson, David P.; Johnson, Mark C.; Colbow, Kevin M.; Campbell, Stephen A., Method and apparatus for reducing reactant crossover in a liquid feed electrochemical fuel cell.
  62. Borup Rodney L. ; Skala Glenn W. ; Brundage Mark A. ; LaBarge William J., Method and apparatus for selective removal of carbon monoxide.
  63. Murphy,Michael W; Litteer,Brian A, Method for detecting electrical defects in membrane electrode assemblies.
  64. Bruce J. Clingerman ; Kenneth D. Mowery, Method for operating a combustor in a fuel cell system.
  65. Robert W. Chalfant ; Bruce J. Clingerman, Method for operating a combustor in a fuel cell system.
  66. Skala, Glenn W; Voecks, Gerald E, Method for starting a primary reactor.
  67. Dearnaley Geoffrey ; Arps James H., Method of depositing a catalyst on a fuel cell electrode.
  68. Hortop,Matthew K, Method of establishing connections between measuring electronics and fuel cell stack.
  69. Hulett Jay S., Method of making MEA for PEM/SPE fuel cell.
  70. Yan, Susan G., Method of making membrane electrode assemblies.
  71. Sompalli, Bhaskar; Gasteiger, Hubert; Mathias, Mark F.; Scozzafava, Michael, Methods of preparing membrane electrode assemblies.
  72. Hockaday Robert G., Micro-fuel cell power devices.
  73. Lewinski, Krzysztof A.; Johnston, Raymond Patrick; Herdtle, Thomas; Ylitalo, David Adrian, Microstructured flow fields.
  74. Frederiksen, Henning; Yde-Andersen, Steen; Grahl-Madsen, Laila; Lundsgaard, Joergen Schjerning, Modified fuel cells with internal humidification and/or temperature control systems.
  75. Stukey, Kevin; Pettit, William H., Multi-stage rapid vaporization apparatus and method.
  76. Stukey, Kevin; Pettit, William H., Multi-stage rapid vaporization apparatus and method.
  77. Senner, Ralph; Andreas-Schott, Benno, Multiple injector and ejector array.
  78. Pettit, William Henry, Multiple stage combustion process to maintain a controllable reformation temperature profile.
  79. Pettit, William Henry, Multiple stage combustion process to maintain a controllable reformation temperature profile.
  80. Pettit,William Henry, Multiple stage combustion process to maintain a controllable reformation temperature profile.
  81. Hockaday Robert G., Non-bipolar fuel cell stack configuration.
  82. Trabold, Thomas A.; Schoeneweiss, Michael R., PEM fuel cell stack without gas diffusion media.
  83. Yasumoto,Eiichi; Yoshida,Akihiko; Uchida,Makoto; Gyoten,Hisaaki; Hatoh,Kazuhito; Sugawara,Yasushi; Morita,Junji; Kanbara,Teruhisa; Takebe,Yasuo; Hosaka,Masato; Niikura,Junji, Polymer electrolyte fuel cell.
  84. Mussell Robert D. (Midland MI), Process for preparing a membrane/electrode assembly.
  85. MacKinnon, Sean M; Fuller, Timothy J., Proton conductive polymer electrolytes and fuel cells.
  86. Spink, Scott A.; Lott, David R.; Wright, Matthew M.; Yemul, Dinesh S.; Fuglevand, William A.; Bayuuk, Shiblihanna I.; Duan, Runrun; Bai, Lijun, Proton exchange membrane fuel cell.
  87. Fuglevand William A. ; Bayyuk Shiblihanna I. ; Lloyd Greg Alden ; De Vries Peter David ; Lott David R. ; Scartozzi John P. ; Somers Gregory M. ; Stokes Ronald G., Proton exchange membrane fuel cell power system.
  88. Fuglevand William A. ; Bayyuk Shiblihanna I. ; Lloyd Greg Alden ; DeVries Peter David ; Lott David R. ; Scartozzi John P. ; Somers Gregory M. ; Stokes Ronald G., Proton exchange membrane fuel cell power system.
  89. Spink, Scott A.; Lott, David R.; Wright, Matthew M.; Ryan, Eric J.; Yemul, Dinesh S.; Fisher, John M., Proton exchange membrane fuel cell stack and fuel cell stack module.
  90. Spink, Scott A.; Lott, David R.; Wright, Matthew M.; Ryan, Eric J.; Yemul, Dinesh S.; Fisher, John M., Proton exchange membrane fuel cell stack and fuel cell stack module.
  91. MacKinnon, Sean M; Fuller, Timothy J.; Coms, Frank; Schoeneweiss, Michael R., Proton exchange membranes for fuel cell applications.
  92. Fagley, John C., Rapid response fuel cell system.
  93. Elian, Klaus, Reaction chamber arrangement and a method for forming a reaction chamber arrangement.
  94. Brundage, Mark A.; Pettit, William H.; Borup, Rodney L., Reactor for preferential oxidation and method of use.
  95. Narang Subhash C. ; Ventura Susanna C., Single-ion conducting solid polymer electrolytes, and conductive compositions and batteries made therefrom.
  96. Bruce J. Clingerman ; Tien M. Doan ; Donald H. Keskula, Staged venting of fuel cell system during rapid shutdown.
  97. Keskula, Donald H.; Doan, Tien M.; Clingerman, Bruce J., Staged venting of fuel cell system during rapid shutdown.
  98. Clingerman,Bruce J; Dewey,Scott B; Pechtold,Rainer; Nolte,Roland; Victor,Hermann; Wnendt,Bernhard; Kunstmann,Christian; Herrmann,Manfred, Starting a fuel cell system using ambient air and a low voltage blower.
  99. Chen, Jong Pyng; Chen, Jen Luan; Shih, Chih Jer; Chen, Chih Yuan, Structures of the proton exchange membranes with different molecular permeabilities.
  100. Mackinnon, Sean M; Fuller, Timothy J.; Coms, Frank, Sulfonated perfluorocyclobutane block copolymers and proton conductive polymer membranes.
  101. Fuller, Timothy J.; Mackinnon, Sean M; Schoeneweiss, Michael R., Sulfonated-polyperfluoro-cyclobutane-polyphenylene polymers for PEM fuel cell applications.
  102. Suh, Sang-Hyuk; Pak, Chan-Ho; Kim, Hae-Kyoung, Supported catalyst and method for preparing the same.
  103. Halalay, Ion C.; Merzougui, Belabbes; Carpenter, Michael K.; Swathirajan, Swathy; Garabedian, Gregory C.; Mance, Andrew M.; Cai, Mei, Supports for fuel cell catalysts.
  104. Hockaday Robert G. (3025 Arizona Ave. Los Alamos NM 87544), Surface replica fuel cell.
  105. Hockaday Robert G., Surface replica fuel cell for micro fuel cell electrical power pack.
  106. Mark F. Mathias ; Stephen A. Grot, System and method for controlling the humidity level of a fuel cell.
  107. Narayanan,Sekharipuram R.; Yen,Shiao Pin S., Water free proton conducting membranes based on poly-4-vinylpyridinebisulfate for fuel cells.
  108. Forte, Jameson R.; Burch, Steven; Brundage, Mark A., Water vapor transfer device for a fuel cell power plant.
  109. Burch, Steven; Forte, Jameson R.; Brundage, Mark A., Water vapor transfer device for fuel cell reformer.

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