Method for low-temperature heat treatment of toluene by using composite material having ternary nio nanosheet @ bimetallic cecuox microsheet core-shell structure

1 . A method for a low-temperature heat treatment of toluene by using a ternary NiO nanosheet @ bimetallic CeCuO X microsheet core-shell structure composite material, comprising the following steps: (1) mixing a cerium salt, a copper salt, an organic acid, and a solvent, performing a solvothermal reaction, and calcining a reaction product of the solvothermal reaction to obtain a CeCuO X microsheet; (2) performing a water bath reaction of a mixture of a nickel salt, urea, and the CeCuO x microsheet in an alcohol/water mixed solvent, and calcining a reaction product of the water bath reaction to obtain the ternary NiO nanosheet @ bimetallic CeCuO x microsheet core-shell structure composite material; and (3) placing the ternary NiO nanosheet @ bimetallic CeCuO x microsheet core-shell structure composite material into a toluene-containing environment, heating at a low temperature, and completing the low-temperature heat treatment of toluene. 2 . The method according to claim 1 , wherein a molar ratio of the cerium salt, the copper salt and the organic acid in step (1) is 2:(1.0-1.1):(4.0-4.1); the solvent is DMF; and the organic acid is terephthalic acid. 3 . The method according to claim 1 , wherein Ce(NO 3 ) 3 ·6H 2 O and Cu(NO 3 ) 2 ·3H 2 O are used as starting materials, and the CeCuO x microsheet is prepared in the presence of terephthalic acid. 4 . The method according to claim 1 , wherein in step (2), a molar ratio of the nickel salt to urea is 1:(5.0-5.1), and the nickel salt is Ni(NO 3 ) 2 . 5 . The method for the low-temperature heat treatment of toluene by using a ternary NiO nanosheet @ bimetallic CeCuO X microsheet core-shell structure composite material according to claim 1 , wherein in the ternary NiO nanosheet @ bimetallic CeCuO X microsheet core-shell structure composite material, a weight of NiO nanosheet is 1-5 times of a weight of bimetallic CeCuO X microsheet. 6 . The method for the low-temperature heat treatment of toluene by using a ternary NiO nanosheet @ bimetallic CeCuO X microsheet core-shell structure composite material according to claim 1 , wherein in step (1), a temperature of the solvothermal reaction is 80° C.-90° C., and a reaction time is 24-25 hours; and the calcination is performed in air, a calcination temperature is 350° C.-400° C., and a calcination time is 4-4.5 hours. 7 . The method for the low-temperature heat treatment of toluene by using a ternary NiO nanosheet @ bimetallic CeCuO X microsheet core-shell structure composite material according to claim 1 , wherein in step (2), a temperature of the water bath reaction is 80° C.-90° C., and a reaction time is 2-2.5 hours; the calcination is performed in air, a calcination temperature is 350° C.-400° C., and a calcination time is 4-4.5 hours. 8 . The method for the low-temperature heat treatment of toluene by using a ternary NiO nanosheet @ bimetallic CeCuO X microsheet core-shell structure composite material according to claim 1 , wherein the low-temperature heat treatment is conducted 200-220° C. 9 . The method for the low-temperature heat treatment of toluene by using a ternary NiO nanosheet @ bimetallic CeCuO X microsheet core-shell structure composite material according to claim 1 , wherein the toluene-containing environment is a gas environment. 10 . The method for the low-temperature heat treatment of toluene by using a ternary NiO nanosheet @ bimetallic CeCuO X microsheet core-shell structure composite material according to claim 9 , wherein a toluene concentration is 10 ppm-100 ppm in the toluene-containing environment.