Porous composite

The invention claimed is: 1. A porous composite comprising: a porous base material; and a porous collection layer formed on said porous base material, wherein said porous collection layer has a thickness greater than or equal to 6 μm, wherein said porous collection layer has: a plurality of large pores, each with a diameter of greater than or equal to 6 μm and less than or equal to 50 μm, each exposing a surface of said porous base material; a plurality of small pores, each with a diameter of greater than or equal to 3 μm and less than or equal to 20 μm, each not exposing the surface of said porous base material, provided in a region other than said plurality of large pores, wherein among a plurality of enlarged images of a surface of said porous collection layer that are captured at a plurality of arbitrary positions on said porous collection layer and magnified 1000 times by a scanning electron microscope, 90% or more enlarged images include some of said plurality of large pores, and a sum of areas of exposed regions of said porous base material that are each exposed through each large pore of said plurality of large pores is greater than or equal to 1% of a total area of said porous collection layer and less than or equal to 50% of the total area of said porous collection layer. 2. The porous composite according to claim 1 , wherein said exposed regions of said porous base material, each exposed through said each large pore of said plurality of large pores, have perimeters greater than or equal to 18 μm and less than or equal to 500 μm. 3. The porous composite according to claim 1 , wherein a rate of increase of an accessible area between said porous collection layer and particulate matter caused by said plurality of large pores is higher than or equal to 1% and lower than or equal to 75%. 4. The porous composite according to claim 1 , wherein a number of large pores included in each of said 90% or more enlarged images is greater than or equal to one and less than or equal to eight. 5. The porous composite according to claim 1 , wherein said porous base material has a honeycomb structure, an inside of the honeycomb structure is partitioned into a plurality of cells by partition walls, and at least some of said plurality of cells have inner surfaces covered with said porous collection layer. 6. The porous composite according to claim 5 , being a gasoline particulate filter that collects particulate matter in an exhaust gas emitted from a gasoline engine. 7. A porous composite comprising: a porous base material; and a porous collection layer formed on said base material, wherein said collection layer has a thickness greater than or equal to 6 μm, wherein said collection layer has: a plurality of large pores, each with a diameter of greater than or equal to 6 μm and less than or equal to 50 μm, each exposing a surface of said base material; a plurality of small pores, each with a diameter of greater than or equal to 3 μm and less than or equal to 20 μm, each not exposing the surface of said base material, provided in a region other than said plurality of large pores, wherein among a plurality of enlarged images of a surface of said collection layer that are captured at a plurality of arbitrary positions on said collection layer and magnified 1000 times by a scanning electron microscope, 90% or more enlarged images include some of said plurality of large pores, and a sum of areas of exposed regions of said base material that are each exposed through each large pore of said plurality of large pores is greater than or equal to 1% of a total area of said collection layer and less than or equal to 50% of the total area of said collection layer, and in a photograph of sections of said collection layer and said base material captured and magnified 500 times by a scanning electron microscope, a plurality of straight lines perpendicular to an interface between said collection layer and said base material are arranged at an equal interval along said interface, and a value obtained by dividing a number of a plurality of overlapping straight lines that overlap with pixels indicating said collection layer by a total number of said plurality of straight lines is greater than or equal to 50% and less than or equal to 90%. 8. The porous composite according to claim 7 , wherein a value obtained by dividing the number of overlapping straight lines that overlap with pixels indicating said collection layer by an amount less than or equal to 10% of the thickness of said collection layer, among said plurality of overlapping straight lines, by the total number of said plurality of straight lines is greater than or equal to 30%. 9. The porous composite according to claim 7 , wherein said base material has a honeycomb structure, an inside of the honeycomb structure is partitioned into a plurality of cells by partition walls, and at least some of said plurality of cells have inner surfaces covered with said collection layer. 10. The porous composite according to claim 9 , being a gasoline particulate filter that collects particulate matter in an exhaust gas emitted from a gasoline engine.