Solid oxide fuel cell structures, and related compositions and processes

What is claimed is: 1. A solid oxide fuel cell, comprising: (I) a porous anode, comprising a layer of finely-dispersed nickel oxide/stabilized-zirconia powder particles, wherein the particles have an average diameter of less than 200 nanometers; and wherein the layer of particles is further characterized by a tri-phase length of greater than 50 μm/μm 3 ; (II) a porous cathode, spaced from the anode; (III) an electrolyte, disposed between the anode and the cathode; and (IV) at least one interconnect structure, attached to at least one of elements (I) or (II), and capable of accommodating the flow of fuel and/or oxidant through the fuel cell. 2. The solid oxide fuel cell of claim 1 , wherein the anode has a porosity of at least 10%. 3. The solid oxide fuel cell of claim 2 , wherein the anode has a porosity of at least 25%. 4. The solid oxide fuel cell of claim 1 , wherein the weight ratio of nickel oxide to stabilized zirconia is in the range of 20:80 to 80:20. 5. The solid oxide fuel cell of claim 1 , further comprising a porous support layer on which the anode is disposed. 6. The solid oxide fuel cell of claim 1 , wherein the porous cathode of component (II) comprises a material selected from the group consisting of stabilized zirconia impregnated with praseodymium oxide; stabilized zirconia impregnated with strontium-doped lanthanum; manganate (LSM); strontium-doped lanthanum ferrite (LSF); strontium-doped scandium cobaltite (SSC); La—Sr—Co—Fe—O-based materials, and combinations thereof; and the electrolyte of component (III) comprises a material selected from the group consisting of stabilized zirconia; scandia-doped cerium oxide, gadolinium-doped cerium oxide, strontium-magnesium-doped lanthanum gallate (LSGM), and combinations thereof. 7. The solid oxide fuel cell of claim 1 , wherein the electrolyte has a thickness which is less than 50 microns. 8. A solid oxide fuel cell, comprising a cathode-electrolyte-anode unit and at least one interconnect structure, wherein the anode comprises a layer of finely-dispersed nickel oxide/stabilized-zirconia powder particles which have an average diameter of less than 200 nanometers; and wherein the layer of particles is further characterized by a tri-phase length of greater than 50 μm/μm 3 . 9. A solid oxide fuel cell stack, comprising a) a plurality of fuel cell units, each including an anode, a cathode, and an electrolyte which separates the anode and the cathode; and b) at least one interconnect structure situated between each fuel cell unit; capable of accommodating the flow of fuel and/or oxidant through adjacent fuel cell units, and capable of completing an electrical circuit through the fuel cell stack; wherein the anode in each fuel cell unit comprises a layer of finely-dispersed nickel oxide/stabilized-zirconia powder particles which have an average diameter of less than 200 nanometers; and wherein the layer of particles is further characterized by a tri-phase length of greater than about 50 μm/μm 3 . 10. A porous anode for a fuel cell, comprising a layer of finely dispersed nickel/stabilized-zirconia powder particles, wherein the particles have an average diameter of less than 200 nanometers; and wherein the layer of particles is further characterized by a tri-phase length of greater than 50 μm/μm 3 . 11. The solid oxide fuel cell of claim 1 , wherein the nickel oxide/stabilized-zirconia particles are spray-agglomerated. 12. The solid oxide fuel cell of claim 11 , wherein the spray-agglomerated particles are prepared by a combustion spray pyrolysis technique. 13. The solid oxide fuel cell of claim 1 , wherein the weight ratio of nickel oxide to stabilized zirconia is 60:40.