Carbon sheet, gas diffusion electrode substrate and fuel cell

The invention claimed is: 1. A gas diffusion electrode substrate comprising a microporous layer and a porous carbon sheet comprising a carbon fiber and a carbonized binding material, wherein the carbon sheet has a surface X 1 having a surface layer area ratio X and an opposite surface Y 1 having a surface layer area ratio Y, in which the surface layer area ratio X is defined as a ratio of an area of a portion of the carbon fiber and the carbonized binding material on surface X 1 having a depth of 20 μm or less and the surface layer area ratio Y is defined as a ratio of an area of a portion of the carbon fiber and the carbonized binding material on the surface Y 1 having a depth of 20 μm or less; wherein the depths are measured from a reference point of an excluded area ratio as determined by laser microscope, the surface layer area ratio X is larger than the surface layer area ratio Y, a difference between the surface layer area ratios is 3% or more and 12% or less, and the microporous layer is disposed on the surface X 1 or a surface X 2 of the carbon sheet. 2. The substrate according to claim 1 , wherein the surface layer area ratio X is 13% or more and 17% or less, and the surface layer area ratio Y is 9% or more and 13% or less. 3. The substrate according to claim 1 , wherein a surface roughness of the surface X 1 is smaller than a surface roughness of the surface Y 1 , and a difference between the surface roughnesses of the surfaces X 1 and Y 1 is 1 μm or more and 4 μm or less. 4. The substrate according to claim 1 , wherein surface roughness of the surface X 1 is 16 μm or less. 5. The substrate according to claim 1 , wherein the carbon sheet includes a hydrophobic material, and where among layers obtained by dividing the carbon sheet in a through-plane direction thereof into three equal parts within a section extending from a surface having a 50% average fluorine intensity, which is closest to one surface, to a surface having a 50% average fluorine intensity, which is closest to another surface, one of a layer close to one surface and a layer close to the other layer, which has a larger average fluorine intensity, is a layer A, the other one of a layer close to one surface and a layer close to the other layer, which has a smaller average fluorine intensity, is a layer B, and a layer between the layer A and the layer B is a layer C, the average fluorine intensity of the layer decreases in the order of the layer A, the layer B and the layer C. 6. The substrate according to claim 5 , wherein the melting point of the hydrophobic material is 200° C. or more and 320° C. or less. 7. The substrate according to claim 3 , wherein the sliding angle of water at the surface Y 1 is 40 degrees or less. 8. The substrate according to claim 1 , wherein when a sum of volumes of pores having a pore diameter of 1 to 100 μm is 100%, a sum of volumes of pores having a pore diameter of 50 to 100 μm is 17 to 50%, and porosity ((ρt−ρb)/ρt) calculated from bulk density (ρb) and true density (ρt) is 75 to 87%. 9. The substrate according to claim 8 , wherein the diameter of a pore having the largest volume (peak diameter) in the diameter range of 1 to 100 μm is 30 to 50 μm. 10. A fuel cell comprising the gas diffusion electrode substrate according to claim 1 .