Microporous layer with hydrophilic additives

The invention claimed is: 1. A microporous layer for use in a fuel cell, the microporous layer comprising: a first carbon black having first carboxyl groups at a concentration less than 0.1 mmol per gram of carbon; a hydrophobic additive at an amount that is about 15 percent to about 25 percent by weight relative to the amount of the first carbon black in the microporous layer; and a hydrophilic additive comprising: a second carbon black having second carboxyl groups at a concentration greater than 0.2 mmol per gram of carbon, a reduced average particle size as compared to the first carbon black, and an increased average surface area as compared to the first carbon black, the second carboxyl groups being between 40% and 80% of total acidic functional groups of the second carbon black; and an oxide selected from the group of tin oxide, titanium dioxide and combinations thereof, wherein the hydrophilic additive is at an amount that is about 5 percent to about 15 percent by weight relative to the amount of the first carbon black in the microporous layer, wherein the microporous layer comprises a composition of the first carbon black, the hydrophobic additive and the hydrophilic additive that is homogenous through a thickness of the microporous layer. 2. The microporous layer of claim 1 , wherein the first carbon black has an average particle diameter greater than about 25 nm and an average surface area less than about 300 m 2 /g. 3. The microporous layer of claim 1 , wherein the hydrophobic additive comprises polytetrafluoroethylene. 4. The microporous layer of claim 1 , wherein the average particle size of the second carbon black is a diameter smaller than about 20 nm, and the average surface area of the second carbon black is greater than about 400 m 2 /g. 5. The microporous layer of claim 1 , wherein the hydrophilic additive comprises a wettable carbon black formed by heating the microporous layer to a temperature between about 300° C. and 500° C. in an oxidizing environment. 6. The microporous layer of claim 1 , wherein the microporous layer has a thickness between about 1 micron and about 50 microns, and wherein the microporous layer has an average pore size less than about 5 microns. 7. The microporous layer of claim 1 , the microporous layer further comprising a surfactant. 8. The microporous layer of claim 7 , wherein the surfactant is at an amount that is 10 percent by weight relative to the amount of the first carbon black in the microporous layer. 9. A gas diffusion electrode comprising: an electrode catalyst layer; a porous gas diffusion layer having a first side proximate the electrode catalyst layer and a second side opposite the first side; and a microporous layer positioned between the electrode catalyst layer and the second side of the gas diffusion layer, the microporous layer comprising: a first carbon black having first carboxyl groups at a concentration less than 0.1 mmol per gram of carbon; a hydrophobic additive at an amount that is about 15 percent to about 25 percent by weight relative to the amount of the first carbon black in the microporous layer; and a hydrophilic additive comprising: a second carbon black having second carboxyl groups at a concentration greater than 0.2 mmol per gram of carbon, a reduced average particle size as compared to the first carbon black, and an increased average surface area as compared to the first carbon black, the second carboxyl groups being between 40% and 80% of total acidic functional groups of the second carbon black; and an oxide selected from the group of tin oxide, titanium dioxide and combinations thereof, wherein the hydrophilic additive is at an amount that is about 5 percent to about 15 percent by weight relative to the amount of the first carbon black in the microporous layer, wherein the microporous layer comprises a composition of the first carbon black, the hydrophobic additive and the hydrophilic additive that is homogenous through a thickness of the microporous layer. 10. The gas diffusion electrode of claim 9 , wherein the hydrophobic additive comprises polytetrafluoroethylene. 11. The gas diffusion electrode of claim 9 , wherein the average particle size of the second carbon black is a diameter smaller than about 20 nm, and the average surface area of the second carbon black is greater than about 400 m 2 /g. 12. The gas diffusion electrode of claim 9 , wherein the hydrophilic additive comprises a wettable carbon black formed by heating the microporous layer to a temperature between about 300° C. and 500° C. in an oxidizing environment. 13. The gas diffusion electrode of claim 9 , wherein the microporous layer has a thickness between about 1 micron and about 50 microns, and wherein the microporous layer has an average pore size less than about 5 microns. 14. The gas diffusion electrode of claim 9 , wherein the microporous layer is positioned between the electrode catalyst layer and the first side of the gas diffusion layer. 15. The gas diffusion electrode of claim 9 , wherein the microporous layer is positioned within the pores of the gas diffusion layer. 16. A fuel cell comprising: a membrane having a first membrane side and an opposite second membrane side; an anode catalyst layer positioned along the first membrane side; a cathode catalyst layer positioned along the second membrane side; a cathode gas diffusion layer having a first side proximate the cathode catalyst layer and a second side opposite the first side; and a microporous layer positioned between the cathode catalyst layer and the second side of the cathode gas diffusion layer, the microporous layer comprising: a first carbon black having first carboxyl groups at a concentration less than 0.1 mmol per gram of carbon; a hydrophobic additive at an amount that is about 15 percent to about 25 percent by weight relative to the amount of the first carbon black in the microporous layer; and a hydrophilic additive comprising: a second carbon black having second carboxyl groups at a concentration greater than 0.2 mmol per gram of carbon, a reduced average particle size as compared to the first carbon black, and an increased average surface area as compared to the first carbon black, the second carboxyl groups being between 40% and 80% of total acidic functional groups of the second carbon black; and an oxide selected from the group of tin oxide, titanium dioxide and combinations thereof, wherein the hydrophilic additive is at an amount that is about 5 percent to about 15 percent by weight relative to the amount of the first carbon black in the microporous layer, wherein the microporous layer comprises a composition of the first carbon black, the hydrophobic additive and the hydrophilic additive that is homogenous through a thickness of the microporous layer. 17. A method for producing a membrane electrode assembly, the method comprising: preparing a microporous layer ink comprising a suspension medium, a first carbon black, a hydrophobic additive at an amount that is about 15 percent to about 25 percent by weight relative to the amount of the first carbon black in the microporous layer ink, and a hydrophilic additive, wherein the first carbon black contains first carboxyl groups at a concentration less than 0.1 mmol per gram of carbon, wherein the hydrophilic additive comprises a second carbon black having second carboxyl groups at a concentration greater than 0.2 mmol per gram of carbon, a reduced average particle size as compared to the first carbon black, and an increased average surface area as compared to the