Prepreg, method of manufacturing prepreg, and carbon fiber-reinforced composite material

The invention claimed is: 1. A prepreg, which is in the form of a sheet and comprises a plurality of carbon fibers and a matrix resin with which said plurality of carbon fibers are impregnated, wherein, said carbon fibers are parallel in the form of a sheet; said matrix resin comprises a thermosetting resin, a curing agent, conductive particles and thermoplastic resin particles; said conductive particles include conductive particles of 1 μm or smaller in diameter and conductive particles of 5 μm or larger in diameter; said conductive particles of 5 μm or larger in diameter and said thermoplastic resin particles are disproportionately distributed in either or both surface layers of said prepreg in the thickness direction of said prepreg; and said conductive particles of 1 μm or smaller in diameter are disproportionately distributed interior to said carbon fibers that are arranged most closely to the respective principal surfaces of said prepreg in said thickness direction of said prepreg, wherein the mass ratio of the carbon fibers contained in the prepreg is 40 to 80%, and the mass of the carbon fibers per unit area of the prepreg is 100 to 300g/m 2 . 2. The prepreg according to claim 1 , wherein, in said thickness direction of said prepreg, 90 to 100% by mass of said conductive particles of 1 μm or smaller in diameter that are contained in said prepreg exist interior to said carbon fibers that are arranged most closely to said respective principal surfaces of said prepreg. 3. The prepreg according to claim 1 , wherein, in said thickness direction of said prepreg, 90 to 100% by mass of said conductive particles of 5 μm or larger in diameter and 90 to 100% by mass of said thermoplastic resin particles, both particle types of which are contained in said prepreg, exist within a depth of 20% with respect to the thickness of said prepreg from said respective principal surfaces of said prepreg. 4. The prepreg according to claim 2 , wherein, in said thickness direction of said prepreg, 90 to 100% by mass of said conductive particles of 5 μm or larger in diameter and 90 to 100% by mass of said thermoplastic resin particles, both particle types of which are contained in said prepreg, exist within a depth of 20% with respect to the thickness of said prepreg from one of said principal surfaces of said prepreg. 5. The prepreg according to claim 1 , wherein said conductive particles are at least one selected from the group consisting of carbon particles and composite particles comprising a core particle made of an inorganic material or an organic material and a conductive layer coating the core particle. 6. The prepreg according to claim 1 , wherein the ratio of the mass of said thermoplastic resin particles to the mass of said conductive particles of 5 μm or larger in diameter is in the range of 1 to 1,000. 7. A prepreg, which is in the form of a sheet and comprises a plurality of carbon fibers and a matrix resin with which said plurality of carbon fibers are impregnated, wherein, said carbon fibers are paralleled in the form of a sheet; said matrix resin comprises a thermosetting resin, a curing agent, conductive particles and thermoplastic resin particles; said conductive particles include conductive particles of 0.01-0.5μm in diameter and conductive particles of 5 μm or larger in diameter; said conductive particles of 5 μm or larger in diameter and said thermoplastic resin particles are disproportionately distributed in either or both surface layers of said prepreg in the thickness direction of said prepreg; and in said thickness direction of said prepreg, 90 to 100% by mass of said conductive particles of 0.01-0.5μm in diameter that are contained in said prepreg exist interior to said carbon fibers that are arranged most closely to said respective principal surfaces of said prepreg, wherein the mass ratio of the carbon fibers contained in the prepreg is 40 to 80%, and the mass of the carbon fibers per unit area of the prepreg is 100 to 300g/m 2 . 8. The prepreg according to claim 1 wherein said conductive particles of 5 μm or larger are carbon particles. 9. The prepreg according to claim 1 wherein the coefficient of variation in terms of said conductive particles of 5 μm or larger in diameter is 5% or less. 10. The prepreg according to claim 1 wherein the second conductive particles have a diameter of not greater than 40μm and not less than 20μm.