Copper-doped iron metal-organic framework, preparation method thereof, and application method for activation of persulfate to treat organic wastewater

What is claimed is: 1. A preparation method of copper-doped iron metal-organic framework, characterized in that, steps are as follows: (1) preparation of iron metal-organic framework: dissolving 0.135˜0.675 g FeCl 3 .6H 2 O in 5˜25 mL N,N-Dimethylformamide, and adding 0.041˜0.206 g 1,4-benzenedicarboxylic acid, to obtain a mixture solution, stirring the mixture solution until completely dissolved, then transferring the mixture solution into a 20˜100 mL fluoropolymer-lined high-pressure reactor, putting the high-pressure reactor into a thermostatic blast drying oven for reaction; (2) after cooling the high-pressure reactor to room temperature, high-speed centrifuging the reaction solution at a speed of 8000˜10000 r to obtain a yellow solid, successively washing the yellow solid with absolute ethyl alcohol, then putting the yellow solid into a vacuum drying oven for drying, to obtain an iron metal-organic framework, labeled as MIL-101(Fe); (3) preparation of copper-doped iron metal-organic framework: successively weighing Cu(NO 3 ) 2 .3H 2 O and citric acid and dissolving them in 100 mL deionized water to obtain a solution, then adding 0.2˜0.4 g of the MIL-101(Fe) prepared in step (2) into the solution to obtain a mixture, uniformly mixing the mixture by a magnetic stirrer, then transferring the mixture into the fluoroplymer-lined high-pressure reactor, putting the high-pressure reactor into the thermostatic blast drying oven for reaction; (4) after cooling the high-pressure reactor to room temperature, high-speed centrifuging the reaction solution at a speed of 8000˜10000 r to obtain a solid, repeatedly washing the solid with deionized water, until no blue color is found in washing liquid; (5) processing the material obtained in step (4) in a temperature programming tube furnace, with specific operation being: heating the tube furnace rapidly to 200˜280° C. in 25 minutes˜35 minutes, high-temperature processing the material under the atmosphere of nitrogen; (6) after cooling the tube furnace to room temperature, taking out the material, with the material being copper-doped iron metal-organic framework, labeled as Cu/MIL-101(Fe), then storing the Cu/MIL-101(Fe) in a dryer. 2. The preparation method of copper-doped iron metal-organic framework according to claim 1 , wherein the reaction mentioned in step (1) is performed at a temperature of 110° C., with a reaction time being 24 hours. 3. The preparation method of copper-doped iron metal-organic framework according to claim 1 , wherein washing the solid mentioned in step (2) is performed for 2 times, 3 hours per wash; the drying in the vacuum drying oven is performed at a temperature of 150° C., for 12 hours; and the high-temperature processing mentioned in step (5) is performed for 4 hours. 4. The preparation method of copper-doped iron metal-organic framework according to claim 1 , wherein Cu 2+ in the Cu(NO 3 ) 2 .3H 2 O and the MIL-101(Fe) mentioned in step (3) have a mass ratio of 4%, 6%, 8% or 10%; the amount of citric acid is 0.036 g˜0.18 g; the stirring is performed for 4 hours; the high-pressure reactor has a volume of 100 mL; and the reaction is performed for 8 hours at 80° C. 5. A copper-doped iron metal-organic framework prepared by the preparation method according to claim 1 . 6. A copper-doped iron metal-organic framework prepared by the preparation method according to claim 2 . 7. A copper-doped iron metal-organic framework prepared by the preparation method according to claim 3 . 8. A copper-doped iron metal-organic framework prepared by the preparation method according to claim 4 . 9. An application method of the copper-doped iron metal-organic framework according to claim 5 for activation of persulfate to treat organic wastewater, characterized in that, steps are as follows: adding copper-doped iron metal-organic framework catalyst and persulfate oxidant into the organic wastewater simultaneously, then shaking in a shaker, reacting for 10 minutes˜240 minutes at room temperature. 10. The application method of the copper-doped iron metal-organic framework for activation of persulfate to treat organic wastewater according to claim 9 , wherein the persulfate is sodium persulfate or potassium persulfate. 11. The application method of the copper-doped iron metal-organic framework for activation of persulfate to treat organic wastewater according to claim 9 , wherein a molar ratio between the persulfate oxidant and organic pollutants is (80˜140):1. 12. The application method of the copper-doped iron metal-organic framework for activation of persulfate to treat organic wastewater according to claim 9 , wherein a dosing quantity of the copper-doped iron metal-organic framework catalyst is 0.1˜0.6 g/L. 13. The application method of the copper-doped iron metal-organic framework for activation of persulfate to treat organic wastewater according to claim 9 , wherein the shaker has a speed of 50-500 rpm.