Hierarchical porous material and the preparation method thereof

We claim: 1. A hierarchical porous material, comprising: a plurality of primary pore aggregates, each formed by aggregating a plurality of nanoparticles; a plurality of secondary pore aggregates, each formed by aggregating primary pore aggregates; and a complex of the secondary pore aggregates formed by aggregating secondary pore aggregates, wherein primary pores on said primary pore aggregates have a diameter in a range of 5-500 nm, and secondary pores on said secondary pore aggregates have a diameter in a range of 1-5 μm, wherein said hierarchical porous material is a metallic material, a metal/metal oxide composite, or a composite of metal/corresponding metal salt precipitate. 2. The hierarchical porous material of claim 1 , wherein each of the plurality of nanoparticles is 20-300 nm in diameter, and each of said primary pore aggregates is 0.5-5 μm in diameter. 3. The hierarchical porous material of claim 1 , wherein said hierarchical porous material is a metal selected from silver, copper, zinc, iron, aluminum, magnesium, lead, and alloys thereof. 4. The hierarchical porous material of claim 1 , wherein said hierarchical porous material comprises a non-precious metal coated by a precious metal, wherein said precious metal is platinum, palladium, gold, or iridium, said non-precious metal is silver, copper, zinc, iron, aluminum, magnesium, lead, or alloys thereof, and a mass percentage of the precious metal in the hierarchical porous material is 1-99%. 5. The hierarchical porous material of claim 1 , wherein said hierarchical porous material is the metal/metal oxide composite, and said metal in the composite is selected from group consisting of silver, copper, zinc, iron, aluminum, magnesium, lead, and alloys thereof, and said metal oxide in the composite is selected from the group consisting of manganese oxide, iron oxide, cobalt oxide, nickel oxide, copper oxide, zinc oxide, and mixtures thereof, and the mass percentage of the metal oxide in the hierarchical porous material is 1-99%. 6. The hierarchical porous material of claim 1 , wherein said hierarchical porous material is the metal/corresponding metal salt precipitate composite, said metal in the composite is selected from the group consisting of silver, copper, zinc, iron, aluminum, magnesium, lead, and alloys thereof, and said metal salt precipitate is selected from the group consisting of silver chloride, copper carbonate, zinc sulfide, ferrous phosphate, aluminum phosphate, magnesium phosphate, and lead sulfide, and a mass percentage of the metal salt precipitate in the hierarchical porous material is 1-99%. 7. A preparation method of the hierarchical porous material of claim 1 , comprises the following steps, (1) oxidizing a metal material in an electrolyte; said electrolyte contains an anion that is capable to form a precipitant with a cation of said metal material, and the electrolyte contains no metal cation that is capable to react with said metal material; and (2) reducing the oxidized metal material acquired from step (1). 8. The preparation method of the hierarchical porous material of claim 7 , wherein said step (2) is a complete reduction that produces the metallic material. 9. The preparation method of the hierarchical porous material of claim 7 , wherein said hierarchical porous material is the non-precious metal coated with precious metal, and the preparation method further comprises: replacing the reduced metal material with a precious metal by exchanging in a solution of a salt of the precious metal; or sputtering the precious metal on a surface of the reduced metal material. 10. The preparation method of the hierarchical porous material of claim 7 , wherein a concentration of anions in said electrolyte of step (1) is >1 mM, and said anion is select from the group consisting of PO 4 3− , S 2− , CO 3 2− , Cl − , Br − , I − , and the mixtures thereof, and a concentration of cations in said electrolyte of step (1) is >1 mM, wherein said cations is select from the group consisting of Na + , K + , H + , and mixtures thereof. 11. The preparation method of the hierarchical porous material of claim 7 , wherein said reduction in step (2) is electroreduction, photoreduction, electron beam reduction, irradiation reduction, or laser reduction. 12. The preparation method of the hierarchical porous material of claim 7 , wherein, in step (1), said metal material serves as a working electrode, a counter electrode is platinum, graphite rod, silver, or gold, a reference electrode is silver/silver chloride, mercury/mercuric oxide, or saturated calomel electrode, and the electrolyte contains one or more halogen is select from the group consisting of Cl − , Br − , and I − . 13. The preparation method of the hierarchical porous material of claim 7 , said precious metal salt solution is select from the group consisting of chloroplatinic acid, chloroauric acid, chloropalladic acid, chloroiridic acid, platinum chloride, palladium chloride, iridium chloride, platinum nitrate, palladium nitrate, and mixtures thereof, the concentration of said precious metal salt solution is 1 mM-1 M, and a reaction time is 10 s-2 h. 14. The preparation method of the hierarchical porous material of claim 13 , said hierarchical porous material is the metal/metal oxide composite, the preparation method further comprises electrodepositing a metal oxide on the surface of the reduced metal material. 15. The preparation method of the hierarchical porous material of claim 14 , wherein the electrolyte used in the said metal oxide electrodeposition method is select from the group consisting of manganese nitrate, ferric nitrate, cobalt nitrate, nickel nitrate, copper nitrate, zinc nitrate, manganese acetate, ferric acetate, cobalt acetate, nickel acetate, copper acetate, zinc acetate, and mixtures thereof; the counter electrode is platinum, graphite rod, silver or gold, a reference electrode is silver/silver chloride, mercury/mercuric oxide, or saturated calomel electrode, and the metal oxide on the surface of said hierarchical porous silver is select from the group consisting of manganese oxide, ferric oxide, cobalt oxide, nickel oxide, copper oxide, zinc oxide, and mixtures thereof. 16. The preparation method of the hierarchical porous material of claim 15 , wherein said electrodeposition is carried out by cyclic voltammetry, linear sweep voltammetry, pulse voltammetry, potentiostatic method, galvanostatic method, or combinations thereof. 17. The preparation method of the hierarchical porous material of claim 7 , wherein said step (2) is an incomplete reduction that produces the metal/corresponding metal salt precipitate composite.