Fuel cell contact element including a TiO 2 layer and a conductive layer

US 8,377,607 B2
Filed: 08/11/2005
Issued: 02/19/2013
Est. Priority Date: 06/30/2005
Status: Active Grant

First Claim

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1. A fuel cell comprising a flow field plate being made of a plate material, said flow field plate including a plurality of flow channels responsive to a reactant gas, said flow field plate further including a TiO₂layer and a conductive layer that combine to make the plate conductive, hydrophilic and stable in a fuel cell environment, wherein the conductive layer is deposited on the flow field plate before the TiO₂layer.

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Abstract

A flow field plate or bipolar plate for a fuel cell that includes a combination of TiO₂and a conductive material that makes the bipolar plate conductive, hydrophilic and stable in the fuel cell environment. The TiO₂and the conductive material can be deposited on the plate as separate layers or can be combined as a single layer. Either the TiO₂layer or the conductive layer can be deposited first. In one embodiment, the conductive material is gold.

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19 Claims

1. A fuel cell comprising a flow field plate being made of a plate material, said flow field plate including a plurality of flow channels responsive to a reactant gas, said flow field plate further including a TiO₂layer and a conductive layer that combine to make the plate conductive, hydrophilic and stable in a fuel cell environment, wherein the conductive layer is deposited on the flow field plate before the TiO₂layer.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
- - 2. The fuel cell according to claim 1 wherein the plate material is selected from the group consisting of stainless steel, titanium, aluminum and a polymer-carbon composite based material.
  - 3. The fuel cell according to claim 1 wherein the conductive layer is a gold layer.
  - 4. The fuel cell according to claim 1 wherein the TiO₂layer provides a contact angle for water accumulating in the flow channels to be below 20°
    - .
  - 5. The fuel cell according to claim 1 wherein the TiO₂layer is resistant to surface contamination.
  - 6. The fuel cell according to claim 1 wherein the TiO₂layer has a thickness in the range of 5-1000 nm.
  - 7. The fuel cell according to claim 1 wherein the conductive layer has a thickness in the 2-10 nm range.
  - 8. The fuel cell according to claim 1 wherein the TiO₂layer and the conductive layer are deposited on the flow field plate by a process selected from the group consisting of an electron beam evaporation process, magnetron sputtering, a pulse plasma process, plasma enhanced chemical vapor deposition, an atomic layer deposition process, thermal spraying, spin coating, dip coating and a sol-gel process.
  - 9. The fuel cell according to claim 1 wherein the flow field plate is selected from the group consisting of anode side flow field plates and cathode side flow field plates.
  - 10. The fuel cell according to claim 1 wherein the fuel cell is part of a fuel cell stack on a vehicle.

11. A fuel cell comprising a flow field plate being made of a plate material, said flow field plate including a plurality of flow channels responsive to a reactant gas, said flow field plate including an outer layer being a mixture of TiO₂and a conductive material that makes the plate conductive, hydrophilic and stable in a fuel cell environment.
- View Dependent Claims (12, 13, 14, 15, 16, 17, 18, 19)
- - 12. The fuel cell according to claim 11 wherein the plate material is selected from the group consisting of stainless steel, titanium, aluminum and a polymer-carbon composite based material.
  - 13. The fuel cell according to claim 11 wherein the conductive material is gold.
  - 14. The fuel cell according to claim 11 wherein the outer layer provides a contact angle for water accumulating in the flow channels to be below 20°
    - .
  - 15. The fuel cell according to claim 11 wherein the outer layer is resistant to surface contamination.
  - 16. The fuel cell according to claim 11 wherein the outer layer has a thickness in the range of 5-1000 nm.
  - 17. The fuel cell according to claim 11 wherein the outer layer is deposited on the flow field plate by a process selected from the group consisting of an electron beam evaporation process, magnetron sputtering, a pulse plasma process, plasma enhanced chemical vapor deposition, an atomic layer deposition process, thermal spraying, spin coating, dip coating and a sol-gel process.
  - 18. The fuel cell according to claim 11 wherein the flow field plate is selected from the group consisting of anode side flow field plates and cathode side flow field plates.
  - 19. The fuel cell according to claim 11 wherein the fuel cell is part of a fuel cell stack on a vehicle.

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Current Assignee
GM Global Technology Operations LLC (General Motors Company)
Original Assignee
GM Global Technology Operations LLC (General Motors Company)
Inventors
Vyas, Gayatri, Abd Elhamid, Mahmoud H., Trabold, Thomas A., Mikhail, Youssef M.
Primary Examiner(s)
Gilliam, Barbara
Assistant Examiner(s)
Enin-Okut, Edu E

Application Number

US11/201,767
Publication Number

US 20070003815A1
Time in Patent Office

2,749 Days
Field of Search

427/115, 427/126.3, 429/457, 429/514, 429/519
US Class Current

429/514
CPC Class Codes

H01M 2008/1095   Fuel cells with polymeric e...

H01M 2250/20   Fuel cells in motive system...

H01M 8/0202   Collectors; Separators, e.g...

H01M 8/0204   Non-porous and characterise...

H01M 8/0206   Metals or alloys

H01M 8/021   Alloys based on iron

H01M 8/0221   Organic resins; Organic pol...

H01M 8/0226   in the form of mixtures

H01M 8/0228   in the form of layered or c...

H01M 8/04291   Arrangements for managing w...

Y02E 60/50   Fuel cells

Y02T 90/40   Application of hydrogen tec...

Fuel cell contact element including a TiO 2 layer and a conductive layer

First Claim

12 Assignments

0 Petitions

Accused Products

Abstract

8 Citations

19 Claims

Specification

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Fuel cell contact element including a TiO 2 layer and a conductive layer

First Claim

12 Assignments

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0 Petitions

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Accused Products

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Abstract

8 Citations

19 Claims

Specification

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Use Cases

Quick Links

Others