Catalytically coated ceramic honeycomb bodies

The invention claimed is: 1. A catalytically coated ceramic honeycomb body comprising: a plurality of parallel flow channels that run from an entry end face to an exit end face, said flow channels being separated from one another by channel walls having a surface and an open pore structure, wherein said open pore structure comprises an average pore diameter in the range of about 3 to 10 μm, and is filled with a catalytic coating comprising solids having an average particle size d 50 in the range of about 1 to 5 μm, and wherein said pore structure is filled with said catalytic coating such that said catalytic coating covers over inlets of said pore structure and extends along surfaces of said channel walls. 2. The honeycomb body of claim 1 , wherein said honeycomb body has a porosity in the range of about 30 to 90%. 3. The honeycomb body of claim 1 , wherein said catalytic coating comprises solids having an average particle size d 50 in the range of about 3 to 5 μm. 4. The honeycomb body of claim 1 , wherein said catalytic coating comprises solids having an average particle size d 50 in the range of about 1 to 3 μm. 5. The honeycomb body of claim 1 , wherein said honeycomb body has a porosity in the range of about 30 to 90%, and said catalytic coating comprises solids having an average particle size d 50 in the range of about 3 to 5 μm. 6. The honeycomb body of claim 1 , wherein said honeycomb body has a porosity in the range of about 30 to 90%, and said catalytic coating comprises solids having an average particle size d 50 in the range of about 1 to 3 μm. 7. A catalytically coated ceramic honeycomb body comprising: a plurality of parallel flow channels that run from an entry end face to an exit end face, said flow channels being separated from one another by channel walls having a surface and an open pore structure, and a catalytic coating on the surface of said channel walls, wherein said open pore structure comprises an average pore diameter in the range of about 3 to 10 μm, said catalytic coating comprises solids having an average particle size d 50 in the range of about 1 to 5 μm, and said open pore structure is filled with said catalytic coating, such that said catalytic coating covers over inlets of said open pore structure and extends along surfaces of said channel walls, and said open pore structure comprises pores that, but for being filled with said catalytic coating, define fluid flow passages for a fluid to flow from a first flow channel into a second parallel flow channel. 8. The honeycomb body of claim 7 , wherein in said open pores that would otherwise define fluid flow passages between a first flow channel and a second parallel flow channel, the catalytic coating fills the fluid flow passage by extending continuously between said first flow channel and said second parallel flow channel. 9. The honeycomb body of claim 7 , wherein said honeycomb body, upon filling said open pore structure with said catalytic coating, is a flow-through honeycomb. 10. A catalytically coated ceramic honeycomb body comprising: a plurality of parallel flow channels separated from one another by channel walls having a surface and an open pore structure that run from an entry end face to an exit end face, and a catalytic coating on the surface of said channel walls, wherein said honeycomb body has an average pore diameter in the range of about 3 to 10 μm, said catalytic coating comprises solids having an average particle size d 50 in the range of about 1 to 5 μm, and said open pore structure of said channel walls are filled with said catalytic coating, such that said catalytic coating covers over inlets of said open pore structure and extends along surfaces of said channel walls, and flow channels in said honeycomb body are closed at one end by a sealing composition and open at a second end, with adjacent flow channels closed at opposite ends of the honeycomb body, the sealing composition being one that is thermally decomposed at temperatures above 80° C. 11. The honeycomb body of claim 10 , wherein the sealing composition is a natural or synthetic wax having a melting point above 80° C.