Claims
- 1. A gas diffusion layer for a fuel cell, comprising a porous material, which porous material comprises a solid matrix and interconnected pores or interstices therethrough that has at least one external surface and internal surfaces, wherein at least a portion of the at least one external surface is coated with one or more layers of at least one electrically conductive material.
- 2. The gas diffusion layer of claim 1, wherein the porous material is a porous polymeric material or porous inorganic material.
- 3. The gas diffusion layer of claim 2, wherein the porous material is a porous polymeric material selected from the group consisting of foams, bundled fibers, matted fibers, needled fibers, woven or nonwoven fibers, and porous polymers made by pressing polymer beads.
- 4. The gas diffusion layer of claim 3, wherein the porous material is a porous polymeric material selected from the group consisting of foams,bundled fibers, woven or nonwoven fibers, and Porex like materials.
- 5. The gas diffusion layer of claim 4, wherein the porous material is selected from polyurethane foams, melamine foams, polyvinyl alcohol foams, or nonwoven felts, woven fibers or bundles of fibers made of polyamide, polyethylene, polypropylene, polyester, cellulose, polyacrylonitrile, Rayon and mixtures thereof.
- 6. The gas diffusion layer of claim 5, wherein the porous material is a foam.
- 7. The gas diffusion layer of claim 6, wherein the porous material is a polyurethane foam.
- 8. The gas diffusion layer of claim 7, wherein the porous material is a felted polyurethane foam, reticulated polyurethane foam, or felted reticulated polyurethane foam.
- 9. The gas diffusion layer of claim 7, wherein the porous material is a polyether polyurethane foam.
- 10. The gas diffusion layer of claim 6, wherein the porous material is a reticulated polymer foam.
- 11. The gas diffusion layer of claim 10, wherein the porous material is a reticulated polyurethane foam.
- 12. The gas diffusion layer of claim 11, wherein the porous material is a flexible reticulated polyurethane foam.
- 13. The gas diffusion layer of claim 2, wherein the porous material is an inorganic porous material.
- 14. The gas diffusion layer of claim 13, wherein the inorganic porous material comprises sintered inorganic powders of silica or alumina.
- 15. The gas diffusion layer of claim 1, wherein the porous material has a pore size in the range of about 5 to about 150 pores per linear inch.
- 16. The gas diffusion layer of claim 1, wherein the porous material has a density in the range of about 0.5 to about 8.0 pounds per cubic foot.
- 17. The gas diffusion layer of claim 1, wherein the at least one electrically conductive material is amorphous carbon, graphite or a metal.
- 18. The gas diffusion layer of claim 17, wherein the at least one electrically conductive material is a substance selected from the group consisting of nickel, gold, platinum, cobalt, chromium, copper, indium, aluminum, titanium, zirconium, alloys of such metals, salts of such metals, and mixtures thereof.
- 19. The gas diffusion layer of claim 18, wherein the at least one electrically conductive material is nickel.
- 20. The gas diffusion layer of claim 17, wherein the at least one electrically conductive material is amorphous carbon or graphite.
- 21. The gas diffusion layer of claim 1, wherein the at least one electrically conductive material has a resistivity less than 20 ohm-cm.
- 22. The gas diffusion layer of claim 21, wherein the at least one electrically conductive material has a resistivity less than 1 ohm-cm.
- 23. The gas diffusion layer of claim 1, wherein the one or more layers of the at least one electrically conductive material has a total thickness of no more than about 500 microns.
- 24. The gas diffusion layer of claim 23, wherein the one or more layers of the at least one electrically conductive material has a total thickness of no more than about 100 microns.
- 25. The gas diffusion layer of claim 24, wherein the one or more layers of the at least one electrically conductive material has a total thickness of no more than about 10 microns.
- 26. The gas diffusion layer of claim 1, wherein the one or more layers of the at least one electrically conductive material has a total thickness of about 1 to about 500 microns.
- 27. The gas diffusion layer of claim 26, wherein the one or more layers of the at least one electrically conductive material has a total thickness of about 5 to about 100 microns.
- 28. The gas diffusion layer of claim 27, wherein the one or more layers of the at least one electrically conductive material has a total thickness of about 10 to about 50 microns.
- 29. The gas diffusion layer of claim 1, wherein the at least a portion of at least one surface is coated with the at least one electrically conductive material by a coating method selected from electroplating, electroless plating, plasma vapor deposition, sputtering, arc forming, and a dip and nip coating process.
- 30. The gas diffusion layer of claim 29, wherein the at least a portion of the at least a surface is coated by dipping the porous material into or painting the at least a portion of the at least a surface with a paint or slurry comprising particles of the at least one electrically conductive material dispersed in a liquid binder.
- 31. The gas diffusion layer of claim 1, wherein the porous material further comprises having at least portions of some of the internal surfaces coated with one or more layers of at least one electrically conductive material, with the coated portions of the internal surfaces and the coated portion of the at least one external surface together forming an electrically conductive pathway, wherein the at least one electrically conductive material coating the at least portions of some of the internal surfaces is the same as or different from the at least one electrically conductive material coating the at least a portion of the at least one external surface.
- 32. The gas diffusion layer of claim 31, wherein the at least one electrically conductive material coating the at least portions of some of the internal surfaces is the same as the at least one electrically conductive material coating the at least a portion of the at least one external surface.
- 33. The gas diffusion layer of claim 1, wherein
(i) the porous material has at least first and second external surfaces, and (ii) at least a portion of the first external surface and at least a portion of the second external surface are coated with one or more layers of at least one electrically conductive material, with the coated portions of the first and second external surfaces together forming an electrically conductive pathway, wherein the at least one electrically conductive material coating the at least a portion of the first external surface is the same as or different from the at least one electrically conductive material coating the at least a portion of the second external surface.
- 34. The gas diffusion layer of claim 33, wherein the at least one electrically conductive material coating the at least a portion of the first external surface is the same as the at least one electrically conductive material coating the at least a portion of the second external surface.
- 35. The gas diffusion layer of claim 33, wherein at least portions of some of the internal surfaces of the porous material are coated with one or more layers of at least one electrically conductive material, with the coated portions of the first and second external surfaces and the coated portions of some of the internal surfaces together forming an electrically conductive pathway, wherein the at least one electrically conductive material coating the at least portions of some of the internal surfaces, the at least one electrically conductive material coating the at least a portion of the first external surface and the at least one electrically conductive material coating the at least a portion of the second external surface are the same or different.
- 36. The gas diffusion layer of claim 35, wherein the at least one electrically conductive material coating the at least portions of some of the internal surfaces, the at least one electrically conductive material coating the at least a portion of the first external surface and the at least one electrically conductive material coating the at least a portion of the second external surface are the same.
- 37. The gas diffusion layer of claim 1 in the shape of a substantially rectangular or square sheet having six external surfaces: first and second major external surfaces opposite to each other and first, second, third and fourth minor external surfaces, wherein a portion of at least one of the major external surfaces is coated, with one or more layers of at least one electrically conductive material.
- 38. The gas diffusion layer of claim 37, wherein at least a portion of at least the first major external surface and a portion of at least the first minor external surface are coated with one or more layers of at least one electrically conductive material, with the coated portion of the first major external surface and the coated portion of the first minor external surface together forming a electrically conductive pathway, wherein the at least one electrically conductive material coating the first major external surface and that coating the first minor external surface are the same or different.
- 39. The gas diffusion layer of claim 38, wherein the at least one electrically conductive material coating the first major external surface and that coating the first minor external surface are the same.
- 40. The gas diffusion layer of claim 38, wherein at least a portion of at least the first major external surface, at least a portion of at least the second major external surface and at least a portion of the first minor external surface are coated with one or more layers of at least one electrically conductive material, with the coated portion of the first major external surface, the coated portion of the second major external surface and the coated portion of the first minor external surface together forming a electrically conductive pathway, wherein the at least one electrically conductive material coating the first major external surface, that coating the second major external surface and that coating the first minor external surface are the same or different.
- 41. The gas diffusion layer of claim 37, wherein at least a portion of at least the first major external surface, at least a portion of at least the second major external surface and at least portions of some of the internal surfaces are coated with one or more layers of at least one electrically conductive material, with the coated portion of the first major external surface, the coated portion of the second major external surface: and the coated portions of some of the internal surfaces together forming a electrically conductive pathway, wherein the at least one electrically conductive material coating the first major external surface, the at least one electrically conductive material coating the second major external surface and the at least one electrically conductive material coating at least some of the external surfaces are the same or different.
- 42. The gas diffusion layer of claim 41, wherein the at least one electrically conductive material coating the first major external surface, the at least one electrically conductive material coating the second major external surface and the at least one electrically conductive material coating at least some of the external surfaces are the same.
- 43. A combination comprising the gas diffusion layer of claim 1 adjacent to an electrode, wherein said electrode comprises a catalyst suitable for oxidation/reduction carried out in a fuel cell, and wherein the portion of the at least one external surface coated with the at least one electrically conductive-material is adjacent to the electrode.
- 44. A combination comprising the gas diffusion layer of claim 2 adjacent to an electrode, wherein said electrode comprises a catalyst suitable for oxidation/reduction carried out in a fuel cell, and wherein the portion of the at least one external surface coated with the at least one electrically conductive material is adjacent to the electrode.
- 45. A combination comprising the gas diffusion layer of claim 3 adjacent to an electrode, wherein said electrode comprises a catalyst suitable for oxidation/reduction carried out in a fuel cell, and wherein the portion of the at least one external surface coated with the at least one electrically conductive material is adjacent to the electrode.
- 46. A combination comprising the gas diffusion layer of claim 4 adjacent to an electrode, wherein said electrode comprises a catalyst suitable for oxidation/reduction carried out in a fuel cell, and wherein the portion of the at least one external surface coated with the at least one electrically conductive material is adjacent to the electrode.
- 47. A combination comprising the gas diffusion layer of claim 5 adjacent to an electrode, wherein said electrode comprises a catalyst suitable for oxidation/reduction carried out in a fuel cell, and wherein the portion of the at least one external surface coated with the at least one electrically conductive material is adjacent to the electrode.
- 48. A combination comprising the gas diffusion layer of claim 6 adjacent to an electrode, wherein said electrode comprises a catalyst suitable for oxidation/reduction carried out in a fuel cell, and wherein the portion of the at least one external surface coated with the at least one electrically conductive material is adjacent to the electrode.
- 49. A combination comprising the gas diffusion layer of claim 7 adjacent to an electrode, wherein said electrode comprises a catalyst suitable for oxidation/reduction carried out in a fuel cell, and wherein the portion of the at least one external surface coated with the at least one electrically conductive material is adjacent to the electrode.
- 50. A combination comprising the gas diffusion layer of claim 8 adjacent to an electrode, wherein said electrode comprises a catalyst suitable for oxidation/reduction carried out in a fuel cell, and wherein the portion of the at least one external surface coated with the at least one electrically conductive material is adjacent to the electrode.
- 51. A combination comprising the gas diffusion layer of claim 9 adjacent to an electrode, wherein said electrode comprises a catalyst suitable for oxidation/reduction carried out in a fuel cell, and wherein the portion of the at least one external surface coated with the at least one electrically conductive material is adjacent to the electrode.
- 52. A combination comprising the gas diffusion layer of claim 10 adjacent to an electrode, wherein said electrode comprises a catalyst suitable for oxidation/reduction carried out in a fuel cell, and wherein the portion of the at least one external surface coated with the at least one electrically conductive material is adjacent to the electrode.
- 53. A combination comprising the gas diffusion layer of claim 11 adjacent to an electrode, wherein said electrode comprises a catalyst suitable for oxidation/reduction carried out in a fuel cell, and wherein the portion of the at least one external surface coated with the at least one electrically conductive material is adjacent to the electrode.
- 54. A combination comprising the gas diffusion layer of claim 12 adjacent to an electrode, wherein said electrode comprises a catalyst suitable for oxidation/reduction carried out in a fuel cell, and wherein the portion of the at least one external surface coated with the at least one electrically conductive material is adjacent to the electrode.
- 55. A combination comprising the gas diffusion layer of claim 13 adjacent to an electrode, wherein said electrode comprises a catalyst suitable for oxidation/reduction carried out in a fuel cell, and wherein the portion of the at least one external surface coated with the at least one electrically conductive material is adjacent to the electrode.
- 56. A combination comprising the gas diffusion layer of claim 14 adjacent to an electrode, wherein said electrode comprises a catalyst suitable for oxidation/reduction carried out in a fuel cell, and wherein the portion of the at least one external surface coated with the at least one electrically conductive material is adjacent to the electrode.
- 57. A combination comprising the gas diffusion layer of claim 15 adjacent to an electrode, wherein said electrode comprises a catalyst suitable for oxidation/reduction carried out in a fuel cell, and wherein the portion of the at least one external surface coated with the at least one electrically conductive material is adjacent to the electrode.
- 58. A combination comprising the gas diffusion layer of claim 16 adjacent to an electrode, wherein said electrode comprises a catalyst suitable for oxidation/reduction carried out in a fuel cell, and wherein the portion of the at least one external surface coated with the at least one electrically conductive material is adjacent to the electrode.
- 59. A combination comprising the gas diffusion layer of claim 17 adjacent to an electrode, wherein said electrode comprises a catalyst suitable for oxidation/reduction carried out in a fuel cell, and wherein the portion of the at least one external surface coated with the at least one electrically conductive material is adjacent to the electrode.
- 60. A combination comprising the gas diffusion layer of claim 18 in contact adjacent to an electrode, wherein said electrode comprises a catalyst suitable for oxidation/reduction carried out in a fuel cell, and wherein the portion of the at least one external surface coated with the at least one electrically conductive material is adjacent to the electrode.
- 61. A combination comprising the gas diffusion layer of claim 19 adjacent to an electrode, wherein said electrode comprises a catalyst suitable for oxidation/reduction carried out in a fuel cell, and wherein the portion of the at least one to external surface coated with the at least one electrically conductive material is adjacent to the electrode.
- 62. A combination comprising the gas diffusion layer of claim 20 adjacent to an electrode, wherein said electrode comprises a catalyst suitable for oxidation/reduction carried out in a fuel cell, and wherein the portion of the at least one external surface coated with the at least one electrically conductive material is adjacent to the electrode.
- 63. A combination comprising the gas diffusion layer of claim 21 adjacent to an electrode, wherein said electrode comprises a catalyst suitable for oxidation/reduction carried out in a fuel cell, and wherein the portion of the at least one external surface coated with the at least one electrically conductive material is adjacent to the electrode.
- 64. A combination comprising the gas diffusion layer of claim 22 adjacent to an electrode, wherein said electrode comprises a catalyst suitable for oxidation/reduction carried out in a fuel cell, and wherein the portion of the at least one external surface coated with the at least one electrically conductive material is adjacent to the electrode.
- 65. A combination comprising the gas diffusion layer of claim 23 adjacent to an electrode, wherein said electrode comprises a catalyst suitable for oxidation/reduction carried out in a fuel cell, and wherein the portion of the at least one external surface coated with the at least one electrically conductive material is adjacent to the electrode.
- 66. A combination comprising the gas diffusion layer of claim 24 adjacent to an electrode, wherein said electrode comprises a catalyst suitable for oxidation/reduction carried out in a fuel cell, and wherein the portion of the at least one external surface coated with the at least one electrically conductive material is adjacent to the electrode.
- 67. A combination comprising the gas diffusion layer of claim 25 adjacent to an electrode, wherein said electrode comprises a catalyst suitable for oxidation/reduction carried out in a fuel cell, and wherein the portion of the at least one external surface coated with the at least one electrically conductive material is adjacent to the electrode.
- 68. A combination comprising the gas diffusion layer of claim 26 adjacent to an electrode, wherein said electrode comprises a catalyst suitable for oxidation/reduction carried out in a fuel cell, and wherein the portion of the at least one external surface coated with the at least one electrically conductive material is adjacent to the electrode.
- 69. A combination comprising the gas diffusion layer of claim 27 adjacent to an electrode, wherein said electrode comprises a catalyst suitable for oxidation/reduction carried out in a fuel cell, and wherein the portion of the at least one external surface coated with the at least one electrically conductive material is adjacent to the electrode.
- 70. A combination comprising the gas diffusion layer of claim 28 adjacent to an electrode, wherein said electrode comprises a catalyst suitable for oxidation/reduction carried out in a fuel cell, and wherein the portion of the at least one external surface coated with the at least one electrically conductive material is adjacent to the electrode.
- 71. A combination comprising the gas diffusion layer of claim 29 adjacent to an electrode, wherein said electrode comprises a catalyst suitable for oxidation/reduction carried out in a fuel cell, and wherein the portion of the at least one external surface coated with the at least one electrically conductive material is adjacent to the electrode.
- 72. A combination comprising the gas diffusion layer of claim 30 adjacent to an electrode, wherein said electrode comprises a catalyst suitable for oxidation/reduction carried out in a fuel cell, and wherein the portion of the at least one external surface coated with the at least one electrically conductive material is adjacent to the electrode.
- 73. A combination comprising the gas diffusion layer of claim 31 adjacent to an electrode, wherein said electrode comprises a catalyst suitable for oxidation/reduction carried out in a fuel cell, and wherein the portion of the at least one external surface coated with the at least one electrically conductive material is adjacent to the electrode.
- 74. A combination comprising the gas diffusion layer of claim 32 adjacent to an electrode, wherein said electrode comprises a catalyst suitable for oxidation/reduction carried out in a fuel cell, and wherein the portion of the at least one external surface coated with the at least one electrically conductive material is adjacent to the electrode.
- 75. A combination comprising the gas diffusion layer of claim 33 adjacent to an electrode, wherein said electrode comprises a catalyst suitable for oxidation/reduction carried out in a fuel cell, and wherein the portion of the at least one external surface coated with the at least one electrically conductive material is adjacent to the electrode.
- 76. A combination comprising the gas diffusion layer of claim 34 adjacent to an electrode, wherein said electrode comprises a catalyst suitable for oxidation/reduction carried out in a fuel cell, and wherein the portion of the at least one external surface coated with the at least one electrically conductive material is adjacent to the electrode.
- 77. A combination comprising the gas diffusion layer of claim 35 adjacent to an electrode, wherein said electrode comprises a catalyst suitable for oxidation/reduction carried out in a fuel cell, and wherein the portion of the at least one external surface coated with the at least one electrically conductive material is adjacent to the electrode.
- 78. A combination comprising the gas diffusion layer of claim 36 adjacent to an electrode, wherein said electrode comprises a catalyst suitable for oxidation/reduction carried out in a fuel cell, and wherein the portion of the at least one external surface coated with the at least one electrically conductive material is adjacent to the electrode.
- 79. A combination comprising the gas diffusion layer of claim 37 adjacent to an electrode, wherein said electrode comprises a catalyst suitable for oxidation/reduction carried out in a fuel cell, and wherein the portion of the at least one external surface coated with the at least one electrically conductive material is adjacent to the electrode.
- 80. A combination comprising the gas diffusion layer of claim 38 adjacent to an electrode, wherein said electrode comprises a catalyst suitable for oxidation/reduction carried out in a fuel cell, and wherein the portion of the at least one external surface coated with the at least one electrically conductive material is adjacent to the electrode.
- 81. A combination comprising the gas diffusion layer of claim 39 adjacent to an electrode, wherein said electrode comprises a catalyst suitable for oxidation/reduction carried out in a fuel cell, and wherein the portion of the at least one external surface coated with the at least one electrically conductive material is adjacent to the electrode.
- 82. A combination comprising the gas diffusion layer of claim 40 adjacent to an electrode, wherein said electrode comprises a catalyst suitable for oxidation/reduction carried out in a fuel cell, and wherein the portion of the at least one external surface coated with the at least one electrically conductive material is adjacent to the electrode.
- 83. A combination comprising the gas diffusion layer of claim 41 adjacent to an electrode, wherein said electrode comprises a catalyst suitable for oxidation/reduction carried out in a fuel cell, and wherein the portion of the at least one external surface coated with the at least one electrically conductive material is adjacent to the electrode.
- 84. A combination comprising the gas diffusion layer of claim 42 adjacent to an electrode, wherein said electrode comprises a catalyst suitable for oxidation/reduction carried out in a fuel cell, and wherein the portion of the at least one external surface coated with the at least one electrically conductive material is adjacent to the electrode.
- 85. A fuel cell comprising
a cathode; an anode; a solid polymer electrolyte membrane sandwiched between the cathode and anode; a gas diffusion layer of claim 1 disposed adjacent to the cathode or anode on a surface opposite the polymer electrolyte membrane, wherein the portion of the at least one external surface coated with the at least one electrically conductive material is adjacent to the cathode or anode.
- 86. The fuel cell of claim 85, wherein the gas diffusion layer is disposed adjacent to the cathode.
- 87. The fuel cell of claim 85, wherein the gas diffusion layer is disposed adjacent to the anode.
- 88. The fuel cell of claim 86, further comprising a second gas diffusion layer of claim 1 disposed adjacent to the anode.
- 89. The fuel cell of claim 85, wherein the gas diffusion layer is the gas diffusion layer of claim 2.
- 90. The fuel cell of claim 85, wherein the gas diffusion layer is the gas diffusion layer of claim 3.
- 91. The fuel cell of claim 85, wherein the gas diffusion layer is the gas diffusion layer of claim 4.
- 92. The fuel cell of claim 85, wherein the gas diffusion layer is the gas diffusion layer of claim 5.
- 93. The fuel cell of claim 85, wherein the gas diffusion layer is the gas diffusion layer of claim 6.
- 94. The fuel cell of claim 85, wherein the gas diffusion layer is the gas diffusion layer of claim 7.
- 95. The fuel cell of claim 85, wherein the gas diffusion layer is the gas diffusion layer of claim 8.
- 96. The fuel cell of claim 85, wherein the gas diffusion layer is the gas diffusion layer of claim 9.
- 97. The fuel cell of claim 85, wherein the gas diffusion layer is the gas diffusion layer of claim 10.
- 98. The fuel cell of claim 85, wherein the gas diffusion layer is the gas diffusion layer of claim 11.
- 99. The fuel cell of claim 85, wherein the gas diffusion layer is the gas diffusion layer of claim 12.
- 100. The fuel cell of claim 85, wherein the-gas diffusion layer is the gas diffusion layer of claim 13.
- 101. The fuel cell of claim 85, wherein the gas diffusion layer is the gas diffusion layer of claim 14.
- 102. The fuel cell of claim 85, wherein the gas diffusion layer is the gas diffusion layer of claim 15.
- 103. The fuel cell of claim 85, wherein the gas diffusion layer is the gas diffusion layer of claim 16.
- 104. The fuel cell of claim 85, wherein the gas diffusion layer is the gas diffusion layer of claim 17.
- 105. The fuel cell of claim 85, wherein the gas diffusion layer is the gas diffusion layer of claim 18.
- 106. The fuel cell of claim 85, wherein the gas diffusion layer is the gas diffusion layer of claim 19.
- 107. The fuel cell of claim 85, wherein the gas diffusion layer is the gas diffusion layer of claim 20.
- 108. The fuel cell of claim 85, wherein the gas diffusion layer is the gas diffusion layer of claim 21.
- 109. The fuel cell of claim 85, wherein the gas diffusion layer is the gas diffusion layer of claim 22.
- 110. The fuel cell of claim 85, wherein the gas diffusion layer is the gas diffusion layer of claim 23.
- 111. The fuel cell of claim 85, wherein the gas diffusion layer is the gas diffusion layer of claim 24.
- 112. The fuel cell of claim 85, wherein the gas diffusion layer is the gas diffusion layer of claim 25.
- 113. The fuel cell of claim 85, wherein the gas diffusion layer is the gas diffusion layer of claim 26.
- 114. The fuel cell of claim 85, wherein the gas diffusion layer is the gas diffusion layer of claim 27.
- 115. The fuel cell of claim 85, wherein the gas diffusion layer is the gas diffusion layer of claim 28.
- 116. The fuel cell of claim 85, wherein the gas diffusion layer is the gas diffusion layer of claim 29.
- 117. The fuel cell of claim 85, wherein the gas diffusion layer is the gas diffusion layer of claim 30.
- 118. The fuel cell of claim 85, wherein the gas diffusion layer is the gas diffusion layer of claim 31.
- 119. The fuel cell of claim 85, wherein the gas diffusion layer is the gas diffusion layer of claim 32.
- 120. The fuel cell of claim 85, wherein the gas diffusion layer is the gas diffusion layer of claim 33.
- 121. The fuel cell of claim 85, wherein the gas diffusion layer is the gas diffusion layer of claim 34.
- 122. The fuel cell of claim 85, wherein the gas diffusion layer is the gas diffusion layer of claim 35.
- 123. The fuel cell of claim 85, wherein the gas diffusion layer is the gas diffusion layer of claim 36.
- 124. The fuel cell of claim 85, wherein the gas diffusion layer is the gas diffusion layer of claim 37.
- 125. The fuel cell of claim 85, wherein the gas diffusion layer is the gas diffusion layer of claim 38.
- 126. The fuel cell of claim 85, wherein the gas diffusion layer is the gas diffusion layer of claim 39.
- 127. The fuel cell of claim 85, wherein the gas diffusion layer is the gas diffusion layer of claim 40.
- 128. The fuel cell of claim 85, wherein the gas diffusion layer is the gas diffusion layer of claim 41.
- 129. The fuel cell of claim 85, wherein the gas diffusion layer is the gas diffusion layer of claim 42.
- 130. A combination comprising the gas diffusion layer of claim 1 adjacent to a substantially nonporous, electrically conductive separator.
- 131. A combination comprising the gas diffusion layer of claim 2 adjacent to a substantially nonporous, electrically conductive separator.
- 132. A combination comprising the gas diffusion layer of claim 3 adjacent to a substantially nonporous, electrically conductive separator.
- 133. A combination comprising the gas diffusion layer of claim 4 adjacent to a substantially nonporous, electrically conductive separator.
- 134. A combination comprising the gas diffusion layer of claim 5 adjacent to a substantially nonporous, electrically conductive separator.
- 135. A combination comprising the gas diffusion layer of claim 6 adjacent to a substantially nonporous, electrically conductive separator.
- 136. A combination comprising the gas diffusion layer of claim 7 adjacent to a substantially nonporous, electrically conductive separator.
- 137. A combination comprising the gas diffusion layer of claim 8 adjacent to a substantially nonporous, electrically conductive separator.
- 138. A combination comprising the gas diffusion layer of claim 9 adjacent to a substantially nonporous, electrically conductive separator.
- 139. A combination comprising the gas diffusion layer of claim 10 adjacent to a substantially nonporous, electrically conductive separator.
- 140. A combination comprising the gas diffusion layer of claim 11 adjacent to a substantially nonporous, electrically conductive separator.
- 141. A combination comprising the gas diffusion layer of claim 12 adjacent to a substantially nonporous, electrically conductive separator.
- 142. A combination comprising the gas diffusion layer of claim 15 adjacent to a substantially nonporous, electrically conductive separator.
- 143. A combination comprising the gas diffusion layer of claim 16 adjacent to a substantially nonporous, electrically conductive separator.
- 144. A combination comprising the gas diffusion layer of claim 17 adjacent to a substantially nonporous, electrically conductive separator.
- 145. A combination comprising the gas diffusion layer of claim 18 adjacent to a substantially nonporous, electrically conductive separator.
- 146. A combination comprising the gas diffusion layer of claim 22 adjacent to a substantially nonporous, electrically conductive separator.
- 147. A combination comprising the gas diffusion layer of claim 31 adjacent to a substantially nonporous, electrically conductive separator.
- 148. A combination comprising the gas diffusion layer of claim 33 adjacent to a substantially nonporous, electrically conductive separator.
- 149. A combination comprising the gas diffusion layer of claim 35 adjacent to a substantially nonporous, electrically conductive separator.
- 150. A combination comprising the gas diffusion layer of claim 37 adjacent to a substantially nonporous, electrically conductive separator.
- 151. A combination comprising the gas diffusion layer of claim 38 adjacent to a substantially nonporous, electrically conductive separator.
- 152. A combination comprising the gas diffusion layer of claim 40 adjacent to a substantially nonporous, electrically conductive separator.
- 153. A combination comprising the gas diffusion layer of claim 41 adjacent to a substantially nonporous, electrically conductive separator.
- 154. The combination of claim 130, further comprising an electrode suitable for a fuel cell adjacent to the gas diffusion layer.
- 155. A gas diffusion layer for a fuel cell, comprising:
a flexible reticulated polyurethane foam, said foam comprising a network of strands forming interconnected pores therebetween, wherein at least one portion of the network at at least one external surface of said foam is coated with at least one layer of at least one electrically conductive material.
- 156. The gas diffusion layer of claim 155, wherein the foam has a pore size in the range of about 5 to about 150 pores per linear inch.
- 157. The gas diffusion layer of claim 155, wherein the foam has a density in the range of about 0.5 to about 8.0 pounds per cubic foot.
- 158. The gas diffusion layer of claim 155, wherein the polyurethane foam is a polyether polyurethane foam.
CROSS REFERENCE TO RELATED APPLICATIONS
[0001] The instant application claims the benefit of U.S. Provisional Patent Application No. 60/392,034, entitled “Gas Diffusion Layer for Fuel Cells”, filed on Jun. 28, 2002 by Kinkelaar and Thompson, the disclosure of which is herein incorporated by reference. The instant application is also a continuation-in-part application of U.S. Non-Provisional patent application Ser. No. 10/185,723, entitled “Capillarity Structures for Water and/or Fuel Management in Fuel Cells”, filed on Jul. 1, 2002, the disclosure of which is also herein incorporated by reference.
[0002] This invention relates to a gas diffusion layer suitable to be placed adjacent to a cathode to help deliver oxygen to a cathode and/or a gas diffusion layer suitable to be placed adjacent to an anode to help deliver hydrogen to an anode in polymer electrolyte or proton exchange membrane (PEM) fuel cells. A gas diffusion layer suitable for use in a fuel cell is also described in U.S. Provisional Patent Application No. _______, entitled “Gas Diffusion Layer Containing Electrically Conductive Polymer for Fuel Cells”, filed on Dec. 27, 2002 by Kinkelaar and Finkelshtain, the disclosure of which is also herein incorporated by reference.
Provisional Applications (1)
|
Number |
Date |
Country |
|
60392034 |
Jun 2002 |
US |
Continuation in Parts (1)
|
Number |
Date |
Country |
Parent |
10185723 |
Jul 2002 |
US |
Child |
10329775 |
Dec 2002 |
US |