Fuel cell including gas flow path layer

What is claimed is: 1. A fuel cell, comprising: a power generation layer including an electrolyte membrane, an anode formed on one side of the electrolyte membrane and a cathode formed on the other side of the electrolyte membrane; a pair of separators arranged across the power generation layer; and a pair of gas flow path layers provided between the power generation layer and the pair of separators, wherein one of the pair of gas flow layers is provided on one side of the power generation layer and another one of the pair of gas flow layers is provided on another side of the power generation layer, wherein each of the pair of gas flow path layers is structured by a plurality of corrugated elements, wherein each corrugated element has a corrugated cross section where first convexes are convexed outward toward the separator and second convexes are convexed inward toward the power generation layer, the first convexes and the second convexes are alternately arranged in a first direction in the each corrugated element, and the plurality of corrugated elements are arranged in a second direction that is perpendicular to the first direction of the fuel cell and the first direction, such that at least part of a top surface of the first convex in one corrugated element and at least part of a bottom surface of the second convex in an adjacent corrugated element cooperatively form an integral surface, and a plurality of through holes are formed between the respective adjacent corrugated elements, wherein the plurality of corrugated elements constituting each of the pair of gas flow path layers include a corrugated element having positions of the first convexes and the second convexes shifted in a positive side of the first direction from those of an adjacent corrugated element in the second direction, and a corrugated element having positions of the first convexes and the second convexes shifted in a negative side of the first direction from those of an adjacent corrugated element in the second direction, and wherein, in both of the pair of gas flow path layers, a first reaction gas flow path is formed in the second convexes, which are convexed inward toward the power generation layer, on a separator-side of the gas flow path layer, and a second reaction gas flow path is formed in the first convexes, which are convexed outward toward the separator, on a power generation layer-side of the gas flow path layer, the second reaction gas flow path is connected with the first reaction gas flow path via a through hole, and a volume of the first reaction gas flow path on the separator-side is less than a volume of the second reaction gas flow path on the power generation layer-side. 2. The fuel cell according to claim 1 , wherein in each of the plurality of corrugated elements, a width of the second convex in the first direction is less than a width of the first convex in the first direction. 3. The fuel cell according to claim 1 , wherein in each of the plurality of corrugated elements, a flat section parallel to surface of the power generation layer is formed in a part of the second convex that is in contact with the surface of the power generation layer. 4. The fuel cell according to claim 3 , wherein in each of the plurality of corrugated elements, contact area of the first convex that is in contact with surface of the separator is greater than contact area of the second convex that is in contact with the surface of the power generation layer. 5. The fuel cell according to claim 1 , wherein the power generation layer further includes: an anode diffusion layer provided on the other side of the anode opposite to a side in contact with the electrolyte membrane; and a cathode diffusion layer provided on the other side of the cathode opposite to a side in contact with the electrolyte membrane, wherein the pair of gas flow path layers are treated to be hydrophilic, and the anode diffusion layer or the cathode diffusion layer in the power generation layer is treated to be water repellent.