Fuel cell, method for manufacturing the same, and application apparatus used for manufacturing the same

What is claimed is: 1. A fuel cell comprising: a cell stack in which a cell including an anode, a solid electrolyte film and a cathode on an outer peripheral surface of a substrate tube is formed in a circumferential direction of the substrate tube, a plurality of the cells are arranged along a longitudinal direction of the substrate tube, and an interconnector connecting the cells electrically in series is formed between the adjacent cells, wherein a thickness of an end portion of the cathode in the longitudinal direction, the portion being in contact with the interconnector, is larger than a thickness of a center portion of the cathode in the longitudinal direction. 2. The fuel cell according to claim 1 , wherein the thickness of the end portion of the cathode is more than 1 and 1.5 or less times the thickness of the center portion of the cathode. 3. The fuel cell according to claim 1 , wherein the end portion of the cathode in the longitudinal direction has a sharp slope. 4. An application apparatus used for manufacturing the fuel cell according to claim 1 , comprising: a dispenser including an opening portion disposed at a position opposite to the outer peripheral surface of the substrate tube attached in a rotatable manner around an axis, the dispenser discharging slurry for cathodes from the opening portion and applying the slurry for cathodes to predetermined positions on the anode, the solid electrolyte film and the interconnector, wherein the dispenser applies the slurry for cathodes so as to make the thickness of the end portion in the longitudinal direction, the portion being in contact with the interconnector, larger than the thickness of the center portion in the longitudinal direction. 5. The application apparatus according to claim 4 , further comprising: an opening position adjustment portion disposed so as to correspond to the dispenser and configured to allow change of a position of the opening portion; a displacement amount acquiring portion configured to acquire a displacement amount of the outer peripheral surface at the time of rotating the substrate tube at a predetermined application position in an axial direction of the substrate tube; a storage portion configured to store adjustment information associated with the displacement amount and a rotation angle around an axis; and a control portion configured to control the opening position adjustment portion in conjunction with rotation of the substrate tube so as to fix a distance between the outer peripheral surface of the substrate tube and the opening portion based on the adjustment information stored in the storage portion, on application of the slurry for cathodes. 6. The application apparatus according to claim 5 , wherein a plurality of the application positions are set with intervals therebetween along the axial direction of the substrate tube, the dispensers are each disposed so as to correspond to the respective application positions, and the control portion controls the opening position adjustment portion corresponding to each of the dispensers based on the adjustment information prepared for each of the application positions. 7. The application apparatus according to claim 5 , wherein N number of the application positions are set with intervals therebetween along the axial direction of the substrate tube, one or M number (M<N) of the dispensers are sequentially disposed at the N number of the application positions by sliding in the axial direction of the substrate tube, and the control portion controls the opening position adjustment portion corresponding to each of the dispensers based on adjustment information prepared for each of the application positions. 8. A method for manufacturing a fuel cell including a cell stack in which a cell including an anode, a solid electrolyte film and a cathode on an outer peripheral surface of a substrate tube is formed in a circumferential direction of the substrate tube, a plurality of the cells are arranged along a longitudinal direction of the substrate tube, and an interconnector connecting the cells electrically in series is formed between the adjacent cells, the method comprising: an application step of discharging slurry for cathodes to configure the cathode on the outer peripheral surface of the substrate tube from an opening portion of a dispenser by rotating the substrate tube in the circumferential direction and applying the slurry for cathodes to predetermined positions on the anode, the solid electrolyte film and the interconnector; and a sintering step of sintering the substrate tube to which the slurry for cathodes is applied, wherein in the application step, the slurry for cathodes is applied so as to make a thickness of an end portion in the longitudinal direction, the end portion being in contact with the interconnector, larger than a thickness of a center portion in the longitudinal direction. 9. The method for manufacturing a fuel cell according to claim 8 , wherein the slurry for cathodes is discharged so as to make the thickness of the end portion more than 1 and 1.5 or less times the thickness of the center portion. 10. The method for manufacturing a fuel cell according to claim 8 , wherein the slurry for cathodes is applied such that the end portion in the longitudinal direction has a sharp slope. 11. The method for manufacturing a fuel cell according to claim 8 , wherein the application step includes: a step of acquiring a displacement amount of the outer peripheral surface of the substrate tube at the time of rotating the substrate tube at a predetermined application position in an axial direction of the substrate tube; a step of creating adjustment information associated with the displacement amount and a rotation angle around an axis; and a step of adjusting a position of the opening portion in conjunction with rotation of the substrate tube so as to fix a distance between the outer peripheral surface of the substrate tube and the opening portion based on the adjustment information, on application of the slurry for cathodes. 12. The method for manufacturing a fuel cell according to claim 11 , further comprising: a step of setting a plurality of the application positions with intervals therebetween along the axial direction of the substrate tube; a step of disposing the dispensers so as to correspond to the respective application positions; and a step of adjusting a distance between the respective opening portion and the outer peripheral surface of the substrate tube based on the adjustment information prepared for each of the application positions. 13. The method for manufacturing a fuel cell according to claim 11 , further comprising: a step of setting N number of the application positions with intervals therebetween along the axial direction of the substrate tube; a step of disposing sequentially one or M number (M<N) of the dispensers at the N number of the application positions by sliding in the axial direction of the substrate tube; and a step of adjusting a distance between the opening portion of each of the dispensers and the outer peripheral surface of the substrate tube based on the adjustment information prepared for each of the application positions.