Patent ID: 7914636
Filing Date: 2011-03-29
Classification: H01M,Y02E,Y02P

Abstract:
1. A method for fabrication of a membrane electrode assembly for a solid oxide fuel cell (MEA) comprising the steps: i. Produce either an electrode green substrate or an electrolyte green substrate, comprising the steps: (1) Place powdered NiO and 8YSZ, if producing an electrode green substrate, or powdered 8YSZ, if producing an electrolyte green substrate, in a jar; (2) Grind the powder placed in the jar with zirconium dioxide grinding balls to reduce the mean particle diameter of the powder and designated the ground powder as powder A; (3) Sinter powder A in a furnace, remove the sintered powder A from the furnace, and grind the sintered powder A at room temperature with zirconium dioxide grinding balls; (4) After grinding the sintered powder A, add a pore former to the sintered powder A and grind the sintered powder A with the pore former at room temperature in order to further reduce the mean particle size of the sintered powder A; (5) Dry the sintered powder A and pore former to remove moisture and water, and designate the resultant powder as powder B; (6) Combine organic solvents, TEA, and powder B to form a mixture, and mix the mixture with zirconium dioxide grinding balls until the solvents, TEA, and powder B are evenly mixed; (7) Combine the mixed mixture with additional powder B, grind the mixed mixture and powder B together until an evenly mixed slurry as slurry C is obtained, and designate the evenly mixed slurry as slurry C; (8) Combine plasticizers DBP and PEG, binder PVB, and slurry C; grind with zirconium dioxide grinding balls after combing; and designate the ground slurry as initial green slurry; (9) Add a binder and a plasticizer to the initial green slurry and designated the initial green slurry with additional binder and plasticizer as final slurry; (10) Use known tape casting processes to produce green tape from the final slurry; (11) Cut the green tape into a plurality of green tapes and laminate the plurality of green tapes together to produce a shaped green substrate; (12) If powdered NiO and 8YSZ was placed in a jar in step (1), the shaped green substrate is also designated as electrode green substrate, and if 8YSZ only was placed in the jar in the first step of the process, the shaped green substrate is also designated as electrolyte green substrate; ii. Produce either an electrode ceramic substrate or an electrolyte ceramic substrate, comprising the steps: (13) Place the shaped green substrate in a metal mold and subject the shaped green substrate to vacuum hot pressing; wherein the vacuum hot press air pressure is less than 1.33×10 (14) Place the high-density green substrate on a zirconium dioxide ceramic substrate so as to form a stack, place the stack on aluminum oxide setters in a furnace, and subject the stack in the furnace to a two-stage sintering cycle in which all temperature incrementing and decrementing is below 3° C./minute, wherein: (a) The stack begins the cycle at room temperature and is then heated to 200° C.; (b) The stack is held at 200° C. for 4 hours and is then heated to 450° C.; (c) The stack is held at 450° C. for 2 hours and is then heated to 750° C.; (d) The stack is held at 750° C. for 2 hours and is then heated to 1250° C.; (e) The stack is held at 1250° C. for 6 hours and is then cooled to room temperature; (f) The stack is heated from room temperature to 1400° C.; (g) The stack is held at 1400° C. for 4 hours and is then cooled to room temperature; (15) Designate the high-density green substrate that has been subjected to the two-stage sintering cycle as a high-integrity ceramic substrate; (16) Apply an additional layer to the high-integrity ceramic substrate via either screen printing, sputtering, spin coating, or plasma spray; wherein the additional layer is an electrode layer if the high-integrity ceramic substrate was produced from an electrolyte green substrate, and wherein the additional layer is an electrolyte layer if the high-integrity ceramic substrate was produced from an electrode green substrate; (17) Place the high-integrity ceramic substrate and additional layer in a furnace and sinter, so as to produce a MEA half cell; (18) Apply a coating of LSM or LSCF to the half cell by screen printing, spin coating, plasma spray, or slurry spray; (19) Place the coated half cell in a furnace and sinter, so as to produce a MEA unit cell.