Fuel cell

The invention claimed is: 1. A fuel cell comprising: a flat-plate-like fuel cell main body which is formed by stacking a cathode layer, an electrolyte layer, and an anode layer, whose first main surface is a surface of one of the cathode layer and the anode layer, and whose second main surface is a surface of the other of the anode and cathode layer; a first current collector which is in contact with the first main surface; and a second current collector which is in contact with the second main surface, the fuel cell being characterized in that: the first current collector including one or more first current collectors and the second current collectors including one or more second current collectors, the second current collector is designed such that the second current collector compressively deforms more easily than the first current collector, and such that: a first region of the first current collector is defined as an area occupied by the one or more first current collectors and an area between adjacent first current collectors and a second region of the second current collector is defined as an area occupied by the one or more second current collectors and an area between adjacent second current collectors, as viewed in a thickness direction of the fuel cell main body, at least a portion of a boundary of the second region of the second current collector corresponding to the second main surface is located within a boundary of the first region of the first current collector corresponding to the first main surface, and the remaining portion of the boundary of the second region is located within the boundary of the first region or on the boundary of the first region. 2. A fuel cell according to claim 1 , wherein: the first region has a first rectangular boundary having a chamfered corner portion, and the second region has a second rectangular boundary having a chamfered corner portion. 3. A fuel cell according to claim 2 , wherein: as viewed in a thickness direction of the fuel cell main body, the chamfered corner portion of the second rectangular boundary of the second region is located inside the chamfered corner portion of the first rectangular boundary of the first region. 4. A fuel cell according to claim 2 , wherein: at least one of the chamfered corner portions of the first and second rectangular boundaries has a straight-line shape or an arc shape. 5. A fuel cell according to claim 2 , wherein the chamfered corner portion of the first and second rectangular boundaries are straightly chamfered or arcuately chamfered to have a rounded corner portion. 6. A fuel cell according to claim 1 , which comprises: a plurality of first current collectors, and a plurality of second current collectors. 7. A fuel cell according to claim 1 , wherein: the first main surface is the surface of the cathode layer and the second main surface is the surface of the anode layer; the first current collector which is in contact with the first main surface contains stainless steel; and the second current collector which is in contact with the second main surface contains porous nickel. 8. A fuel cell according to claim 1 , wherein: the first main surface is the surface of the cathode layer and the second main surface is the surface of the anode layer; the first current collector which is in contact with the first main surface contains stainless steel; and the second current collector which is in contact with the second main surface is formed by a combination of nickel and mica. 9. A fuel cell according to claim 1 , wherein the first main surface is a surface of the cathode layer and the second main surface is a surface of the anode layer.