Method for regulating the structure and properties of the composite nanoabsorbent

What is claimed is: 1. A method for regulating the structure and properties of a composite nanoabsorbent, consisting of the following steps: 1) providing nanoporous chloromethylated polystyrene-divinylbenzene beads; 2) mixing the nanoporous chloromethylated polystyrene-divinylbenzene beads, nitrobenzene and zinc chloride (ZnCl 2 ) together, agitating the mixture and simultaneously heating the mixture at a rate of 2° C./min in an oil bath until a reaction temperature of 90-200° C. is reached, and keeping the reaction temperature constant for a reaction time of 1-8 hours; 3) naturally cooling off the mixture after heating the mixture and keeping the reaction temperature constant, and taking out the material so obtained and washing the material successively with ethanol and water until an effluent of the washed material turns neutral, then extracting the material with absolute ethanol for 5 hours; 4) drying the extracted material at 60° C. to obtain a resin (resin A) with various degrees of crosslinking; 5)choosing inorganic functional nanoparticles B selected from the group consisting of nanosized hydrated ferric oxides and hydrated manganese oxides; and using the resin A as a support, loading the inorganic functional nanoparticles B thereon by means of in situ precipitation between corresponding metallic ions of the inorganic functional nanoparticles B and a NaOH solution; the composite nanoabsorbent is therefore obtained. 2. The method for regulating the structure and properties of the composite nanoabsorbent as defined in claim 1 , wherein the composite nanoabsorbent of various absorption capacities and absorption speed is prepared through regulation of a pore structure, said regulation of the pore structure of the nanoabsorbent is performed via crosslinking reactions by heating chloromethylated polystyrene-divinylbenzene beads under existence of nitrobenzene and ZnCl 2 ; wherein changing proportions of the chloromethylated polystyrene-divinylbenzene beads, nitrobenzene, ZnCl 2 , modes of heating and reaction time, results in resin A having a degree of crosslinking of 8-60% and a specific surface area of 50-1200m 2 /g. 3. The method for regulating the structure and properties of the composite nanoabsorbent as defined in claim 2 , wherein the mixture of chloromethylated beads and nitrobenzene has a mass-volume ratio of 1:5-1:10; the mixture of chloromethylated beads and ZnCl 2 has a mass ratio of 2:1-1:10; and the degree of crosslinking is regulated by changing the proportions between chloromethylated beads, nitrobenzene and ZnCl 2 , the reaction temperature and the reaction time. 4. The method for regulating the structure and properties of the composite nanoabsorbent as defined in claim 3 , further comprising the step of decreasing the degree of crosslinking by increasing the mass-volume ratio between chloromethylated beads and nitrobenzene, while the mass ratio of the chloromethylated beads and ZnCl 2 , reaction temperature and reaction time remain unchanged. 5. The method for regulating the structure and properties of the composite nanoabsorbent as defined in claim 3 , further comprising the step of decreasing the degree of crosslinking by increasing the mass ratio between chloromethylated beads and ZnCl 2 , while the mass-volume ratio of the chloromethylated beads and nitrobenzene, reaction temperature and reaction time remain unchanged. 6. The method for regulating the structure and properties of the composite nanoabsorbent as defined in claim 3 , further comprising the step of increasing the degree of crosslinking by increasing the reaction temperature, while the mass-volume ratio of the chloromethylated beads and nitrobenzene, mass ratio between chloromethylated beads and ZnCl 2 , and reaction time remain unchanged. 7. The method for regulating the structure and properties of the composite nanoabsorbent as defined in claim 3 , further comprising the step of increasing the degree of crosslinking by increasing the reaction time, while the mass-volume ratio of the chloromethvlated beads and nitrobenzene, mass ratio between chloromethylated beads and ZnCl 2 , and reaction temperature remain unchanged. 8. The method for regulating the structure and properties of the composite nanoabsorbent as defined in claim 3 , wherein the degree of crosslinking of resin A is 8% -60% ; the pore structure has an average pore size of 1-10nm and 95% to more than 99% of the inorganic functional nanoparticles B are 0.5-8nm in diameter. 9. The method for regulating the structure and properties of the composite nanoabsorbent as defined in claim 2 , wherein the choice of inorganic functional nanoparticles B is determined in relation to a target pollutant selected from the group consisting of arsenic, stibium, lead, zinc and cadmium. 10. A method for regulating the structure and properties of a composite nanoabsorbent, comprising: 1)providing nanoporous chloromethylated polystyrene-divinylbenzene; 2)mixing a solution of the chloromethylated polystyrene-divinylbenzene beads, nitrobenzene and zinc chloride (ZnCl 2 ) together, agitating the mixture and simultaneously heating the mixture at a rate of 2° C./min in an oil bath until the reaction temperature reaches 90-200° C., and keeping the reaction temperature constant for a reaction time of 1-8 hours; 3)naturally cooling off the mixture after heating the mixture and keeping the reaction temperature constant, and taking out the material so obtained and washing the material successively with ethanol and water until an effluent turns neutral, then extracting the material with absolute ethanol for 5 hours; 4)drying the extracted material at 60° C. to obtain a resin (resin A) with various degrees of crosslinking; 5)choosing inorganic functional nanoparticles B selected from the group consisting of nanosized hydrated ferric oxides and hydrated manganese oxides; and 6)using the resin A as a support, loading the inorganic functional nanoparticles B thereon by means of in situ precipitation between corresponding metallic ions of the inorganic functional nanoparticles B and a NaOH solution; the composite nanoabsorbent is therefore obtained. 11. The method for regulating the structure and properties of the composite nanoabsorbent as defined in claim 10 , wherein the composite nanoabsorbent of various absorption capacities and absorption speed is prepared through regulation of a pore structure, said regulation of the pore structure of the nanoabsorbent is performed via crosslinking reactions by heating chloromethylated polystyrene-divinylbenzene beads under existence of nitrobenzene and ZnCl 2 ; wherein changing proportions of the chloromethylated polystyrene-divinylbenzene beads, nitrobenzene, ZnCl 2 , modes of heating and reaction time, results in resin A having a degree of crosslinking of 8-60% and a specific surface area of 20-1200m 2 /g. 12. The method for regulating the structure and properties of the composite nanoabsorbent as defined in claim 11 , wherein the mixture of chloromethylated beads and nitrobenzene has a mass-volume ratio of 1:5-1:10; the mixture of chloromethylated beads and ZnCl 2 has a mass ratio of 2:1-1:10; and the degree of crosslinking is regulated by changing the proportions between chloromethylated beads, nitrobenzene and ZnCl 2 , the reaction temperature and the reaction time. 13. The method for regulating the structure and properties of the composite nanoabsorbent as defined in claim 12 , further comprising the step of decreasing the degree of crosslinking by increasing the mass-volume ratio between chloromethylated beads and nitrobenzene, while the mass ratio of the chloromethylated beads and ZnCl 2 , reaction tem