Conductive and hydrophilic bipolar plate coatings and method of making the same

What is claimed: 1. A flow field plate for fuel cell applications comprising: a metal plate having a first surface and a second surface, the first surface defining a plurality of channels for directing flow of a first gaseous composition; a carbon layer disposed over and directly connected to at least a portion of the metal plate; and a titanium oxide layer disposed over and directly connected to at least a portion of the carbon layer to form a titanium oxide/carbon bilayer wherein the titanium oxide/carbon bilayer is activated by a UV or plasma source to render the titanium oxide/carbon bilayer surface clean and maintain hydrophilicity. 2. The flow field plate of claim 1 wherein the titanium oxide/carbon bilayer has a surface with a contact angle less than 40 degrees. 3. The flow field plate of claim 1 wherein the contact resistance is less than 40 mohm-cm 2 when the flow field plate is sandwiched between carbon papers at 200 psi. 4. The flow field plate of claim 1 wherein the titanium oxide layer is selectively deposited on a plurality of walls of the channels. 5. The flow field plate of claim 1 further comprising one or more additional titanium oxide/carbon bilayers disposed over at least a portion of the titanium oxide/carbon bilayer. 6. The flow field plate of claim 1 wherein the titanium oxide layer includes hydrocarbons in an amount that is less than 40 weight percent of the total weight of the titanium oxide layer. 7. The flow field plate of claim 1 wherein the titanium oxide layer includes hydrocarbons in an amount that is less than 20 weight percent of the total weight of the titanium oxide layer. 8. The flow field plate of claim 1 wherein the carbon layer comprises amorphous carbon. 9. The flow field plate of claim 8 wherein the carbon layer has a surface including on average at least 5 pores per cm 2 . 10. The flow field plate of claim 1 wherein the titanium oxide layer comprises a component selected from the group consisting of TiO 2 , titanium suboxides, titanium oxide hydrate and mixtures thereof. 11. The flow field plate of claim 1 wherein the titanium oxide layer comprises an amphorous titanium oxide or a polycrystalline titanium oxide. 12. The flow field plate of claim 1 wherein the metal plate has a second surface defining a second plurality of channels for directing flow of a second gaseous composition. 13. The flow field plate of claim 12 wherein the second surface is a second non-crystalline carbon layer. 14. A flow field plate for fuel cell applications comprising: a metal plate having a first surface and a second surface, the first surface defining a plurality of channels for directing flow of a first gaseous composition; a carbon layer disposed over and directly connected to at least a portion of the metal plate; and a titanium oxide layer disposed over and directly connected to at least a portion of the carbon layer to form a titanium oxide/carbon bilayer wherein the titanium oxide/carbon bilayer is activated by visible light after treatment with a nitrogen-containing gas.