Fuel cell and fuel cell stack

The invention claimed is: 1. A fuel cell assuming the form of a flat plate and comprising: a cathode formed on one side of an electrolyte and an anode formed on the other side of the electrolyte, the cathode or the anode having a platelike structure having a predetermined thickness, wherein the fuel cell further comprises a first flow path formed on a side toward the cathode and adapted to supply oxidizing gas as a reactant to the cathode from a first direction perpendicular to a thickness direction of the cathode, and a second flow path formed on a side toward the anode and adapted to supply fuel gas as a reactant to the anode from a second direction perpendicular to a thickness direction of the anode, and wherein the fuel cell is characterized in that: (i) a first side surface of the platelike structure intersecting with the direction from which a corresponding reactant is supplied, is inclined such that a first end of the inclined first side surface on a side opposite the electrolyte is located downstream, along a corresponding reactant flow direction, of a second end of the inclined first side surface on a side toward the electrolyte, (ii) a second side surface of the platelike structure intersecting with the direction from which the corresponding reactant is supplied, is inclined such that a first end of the inclined second side surface on the side opposite the electrolyte is located upstream, along the corresponding reactant flow direction, of a second end of the inclined second side surface on the side toward the electrolyte, and (iii) the first side surface is located upstream along the reactant flow direction of the second side surface, and wherein the platelike structure has a main outer surface on the side opposite to the electrolyte which is adapted to supply the corresponding reactant, wherein the cathode comprises a cathode active layer and a diffusion layer formed on a surface of the cathode active layer and allowing the oxidizing gas to diffuse to the cathode active layer, and only the diffusion layer is configured to be inclined. 2. A fuel cell assuming the form of a flat plate and comprising: a cathode formed on one side of an electrolyte and an anode formed on the other side of the electrolyte, each of the cathode and the anode having a platelike structure having a predetermined thickness wherein the fuel cell further comprises a first flow path formed on a side toward the cathode and adapted to supply oxidizing gas as a reactant to the cathode from a first direction perpendicular to a thickness direction of the cathode, and a second flow path formed on a side toward the anode and adapted to supply fuel gas as a reactant to the anode from a second direction perpendicular to a thickness direction of the anode, and wherein the fuel cell is characterized in that: (i) a first side surface of the platelike structure intersecting with the direction from which a corresponding reactant is supplied, is inclined such that a first end of the inclined first side surface on a side opposite the electrolyte is located downstream, along a corresponding reactant flow, of a second end of the inclined first side surface on a side toward the electrolyte, and (ii) a second side surface of the platelike structure intersecting with the direction from which the corresponding reactant is supplied, is inclined such that a first end of the inclined second side surface on the side opposite the electrolyte is located upstream, along the corresponding reactant flow, of a second end of the inclined second side surface on the side toward the electrolyte, and (iii) the first side surface is located upstream along the reactant flow direction of the second side surface, and wherein each of the platelike structures has a main outer surface on the side opposite to the electrolyte which is adapted to supply the corresponding reactant, the cathode comprises a cathode active layer and a diffusion layer formed on a surface of the cathode active layer and allowing the oxidizing gas to diffuse to the cathode active layer, and only the diffusion layer is configured to be inclined. 3. A fuel cell as claimed in claim 1 , wherein the side surface is inclined at an angle of 30° to 85° with respect to a surface of the electrolyte. 4. A fuel cell as claimed in claim 1 , wherein the inclined side surface has a slit formed thereon along at least one of the first direction and the second direction. 5. A fuel cell as claimed in claim 1 , wherein the inclined side surface is a smooth surface or a stepped surface. 6. A fuel cell as claimed in claim 1 , wherein the fuel cell is a solid oxide fuel cell which uses a solid oxide as an electrolyte. 7. A fuel cell stack comprising a single or a plurality of the fuel cells as claimed in claim 1 . 8. A fuel cell as claimed in claim 2 , wherein the side surface is inclined at an angle of 30° to 85° with respect to a surface of the electrolyte. 9. A fuel cell as claimed in claim 2 , wherein the inclined side surface has a slit formed thereon along at least one of the first direction and the second direction. 10. A fuel cell as claimed in claim 2 , wherein the inclined side surface is a smooth surface or a stepped surface. 11. A fuel cell as claimed in claim 2 , wherein the fuel cell is a solid oxide fuel cell which uses a solid oxide as an electrolyte. 12. A fuel cell stack comprising a single or a plurality of the fuel cells as claimed in claim 2 .