Redox tolerant anode compositions for fuel cells

We claim: 1 . In a fuel cell having an anode comprising nickel oxide, a method of changing the porosity of the anode by forming the anode from a composition comprising nickel oxide, a doped ceria, and a stabilized zirconia wherein the weight percentage of the nickel oxide is greater than twenty-five percent. 2 . The method of claim 1 comprising forming the anode as a single layer composition comprising at least one of gadolinia doped ceria (GDC), samaria doped ceria (SDC), or lanthania doped ceria (LDC); and at least one of Yttria stabilized zirconia (YSZ) or scandia stabilized zirconia (ScSZ). 3 . The method of claim 2 comprising forming the anode from a composition comprising GDC. 4 . The method of claim 1 comprising forming the anode as a multilayer anode wherein the composition of at least one layer comprises at least one of GDC, SDC, or LDC; and at least one of YSZ or ScSZ. 5 . The method of claim 4 comprising forming the at least one layer from a composition comprising GDC. 6 . The method of claim 1 comprising forming the anode in three layers from composition comprising nickel oxide, a doped ceria, and a stabilized zirconia, wherein the weight percentage of nickel oxide in a second layer disposed between a first layer and a third layer is greater than the weight percentage of nickel oxide in the first layer and less than the weight percentage of nickel oxide in the third layer. 7 . A fuel cell comprising an anode, a cathode, and an electrolyte disposed between said anode and said cathode, said anode comprising a composition having the general formula: NiO x -(doped ceria) y -(stabilized zirconia) z wherein x, y, and z are weight percentages of the composition, and wherein: 25 <x< 100; 25 <y< 100; and 0 <z= 1 −x−y. 8 . The fuel cell of claim 7 wherein said anode comprises at least one of GDC, SDC, or LDC; and at least one of YSZ or ScSZ. 9 . The fuel cell of claim 8 wherein said anode comprises GDC and ScSZ, and wherein x=65. 10 . The fuel cell system of claim 9 wherein the anode comprises a composition wherein y=31.5. 11 . A fuel cell comprising an anode, a cathode, and an electrolyte disposed between said anode and said cathode, said anode comprising a first layer disposed between a second layer and said electrolyte, said first layer comprising a composition having the general formula: NiO x -(doped ceria) y wherein x and y are weight percentages of the composition, and wherein: 25 <x< 100; and 25 <y< 100, and said second layer comprising a composition having the general formula: NiO x -(doped ceria) y -(stabilized zirconia), wherein x, y, and z are weight percentages of the composition, and wherein: 25 <x< 100; 25 <y< 100; and 0 <z= 1 −x−y. 12 . The fuel cell of claim 11 wherein the doped ceria in the first layer of said anode comprises GDC. 13 . The fuel cell of claim 12 wherein the doped ceria in the second layer of said anode comprises GDC, and wherein the stabilized zirconia in the second layer of said anode comprises YSZ or ScSZ. 14 . A fuel cell comprising an anode, a cathode, and an electrolyte disposed between said anode and said cathode, said anode comprising a first layer, a second layer, and a third layer, said first layer being disposed between said second layer and said electrolyte, and said second layer being disposed between said first layer and said third layer, said first layer comprising a composition having the general formula: NiO x1 -(doped ceria) y -(stabilized zircona) z wherein x1, y, and z are weight percentages of the composition, and wherein: 25 <x 1<100; 25 <y< 100; and 0 <z= 1 −x−y, said second layer comprising a composition having the general formula: NiO x2 -(doped ceria) y -(stabilized zirconia) z wherein x, y, and z are weight percentages of the composition, and wherein: x 1 <x 2; 25 <x 2<100; 25 <y< 100; and 0 <z= 1 −x−y, and said third layer comprising a composition having the general formula: NiO x3 -(doped ceria) y -(stabilized zirconia) z wherein x3, y, and z are weight percentages of the composition, and wherein: x 2 <x 3; 25 <x 3<100; 25 <y< 100; and 0 <z= 1− x−y. 15 . The fuel cell of claim 14 wherein the doped ceria in said first layer, said second layer, and said third layer comprises GDC. 16 . The fuel cell of claim 15 wherein the stabilized zirconia in said first layer, said second layer, and said third layer comprises YSZ or ScSZ. 17 . The fuel cell of claim 14 wherein the stabilized zirconia in said first layer, said second layer, and said third layer comprises YSZ or ScSZ.