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An electrically conductive flow-field plate in a proton exchange membrane fuel cell comprises a composition made of a resin and a plurality of carbon nanotubular fibers having an average diameter is at least about 0.5 nm and up to about 300 nm. The carbon nanotubular fibers are present at not more t

An electrically conductive flow-field plate in a proton exchange membrane fuel cell comprises a composition made of a resin and a plurality of carbon nanotubular fibers having an average diameter is at least about 0.5 nm and up to about 300 nm. The carbon nanotubular fibers are present at not more than about 85 wt. %. The resin can be of a thermoplastic type, a fluorinated type, a thermosetting type and a liquid crystalline type.

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1. An electrically conductive plate in a proton exchange membrane fuel cell, comprising a composition made of a resin and a plurality of carbon nanotubular fibers comprising an average diameter that is at least about 1 nm and up to about 300 nm and wherein said plurality of carbon nanotubular fibers

1. An electrically conductive plate in a proton exchange membrane fuel cell, comprising a composition made of a resin and a plurality of carbon nanotubular fibers comprising an average diameter that is at least about 1 nm and up to about 300 nm and wherein said plurality of carbon nanotubular fibers comprises multiwalled graphitic tubes containing multiple co-axial cylinders of increasing diameters. 2. The conductive place of claim 1, wherein said resin is selected from the group consisting of a thermoplastic resin; a fluorinated resin; a thermosetting resin, and a liquid crystalline. 3. The conductive plate of claim 1, wherein said resin is selected from the group consisting of polypropylene copolymers, high density polyethylene, polyacrylonitrile, polyvinylidene flouride, polychlorotrifluoroethylene, polyether etherketone, polycarbonates, polyphenylene oxide, polyester amide, epoxy, pitch and vinyl ester resins. 4. The conductive plate of claim 1, wherein said carbon nanotubular fibers are present at about 10 to 85 wt. %. 5. The conductive plate of claim 1, wherein said cylinders are separated from one another by about 0.34 nm. 6. An electrically conductive plate in a proton exchange membrane fuel cell, comprising a composition made of a resin and a plurality of carbon nanotubular fibers comprising an average diameter that is at least about 1 nm and up to about 300 nm and wherein said plurality of nanotubular fibers comprises single walled graphitic tubes bundled together in the form of a rope. 7. The conductive plate of claim 1, wherein said conductive plate is a bipolar plate. 8. An electrically conductive plate with molded channels for use in a proton exchange membrane fuel cell, comprising a composition made of a resin and a plurality of carbon nanotubular fibers present at not more than about 85 wt. % and wherein said plurality of carbon nanotubular fibers comprise multiwalled graphitic tubes containing multiple co-axial cylinders of increasing diameters. 9. The conductive plate of claim 8, wherein said carbon nanotubular fibers are present from about 7 wt. % and up to about 85 wt. %. 10. The conductive plate of claims 8, wherein said carbon nanotublar fibers have an average diameter from about 0.5 nm and up to about 300 nm. 11. The conductive plate of claim 8, wherein said carbon nanotubular fibers have an average length from about 1 μm and up to about 1000 μm. 12. The conductive plate of claim 8, wherein said cylinders are separated from one another by about 0.34 nm. 13. An electrically conductive plate with molded channels for use in a proton exchange membrane fuel cell, comprising a composition made of a resin and a plurality of carbon nanotubular fibers present at not more than about 85 wt. % and wherein said plurality of carbon nanotubular fibers comprises single walled graphitic tubes that are bundled together as a rope. 14. The conductive plates of claim 8, wherein said carbon nanotubular fibers have been heat-treated between about 300 to about 3000° C. 15. The conductive plate of claim 8, wherein said resin is selected from the group consisting of polypropylene copolymers, high density polyethylene, polyacrylonitrile, polyvinylidene fluoride, polychlorotrifluoroethylene, polyether etherketone, polycarbonates, polyphenylene oxide, polyester amide, epoxy, silicone rubber, pitch and vinyl ester resins. 16. The conductive plate of claim 8, wherein said composition further comprises a reinforcing agent. 17. The conductive plate of claim 16, wherein said reinforcing agent is selected from the group consisting of chopped glass fiber, chopped carbon fiber, carbon fiber mats and as-prepared carbon nanotubular fiber.