Energy harvesting and self-cleaning system based on graphene aerogels and preparation method thereof

The invention claimed is: 1. An energy harvesting and self-cleaning system based on graphene aerogels, comprising: a freeze-dried graphene aerogel; and a layer of a metal collector that is sputtered directly on both sides of the same freeze-dried graphene aerogel by magnetron sputtering; wherein the freeze-dried graphene aerogel with the metal collector is fixed on a side and a bottom of a substrate in series and/or parallel connection, and then is put into an electrolyte to get a target system. 2. The energy harvesting and self-cleaning system based on graphene aerogels according to claim 1 , wherein a metal used by the metal collector is Ag, Pt, Al or Cu. 3. The energy harvesting and self-cleaning system based on graphene aerogels according to claim 1 , wherein a thickness of the metal collector is 500 nm-50 μm. 4. The energy harvesting and self-cleaning system based on graphene aerogels according to claim 1 , wherein a preparation of the freeze-dried graphene aerogel is carried out through the following steps: S 1 , weighing a graphene oxide, and then dispersing the graphene oxide in water to obtain a graphene oxide solution; S 2 , uniformly mixing a nano-composite solution and the graphene oxide solution and adding a reducing agent to obtain a mixture; S 3 , heating the mixture prepared by step S 2 in a reactor; and S 4 , removing the mixture obtained by step S 3 and freeze-drying to obtain the freeze-dried graphene aerogel. 5. The energy harvesting and self-cleaning system based on graphene aerogels according to claim 4 , wherein a concentration of the graphene oxide solution in step S 1 is 5 mg/ml-15 mg/ml. 6. The energy harvesting and self-cleaning system based on graphene aerogels according to claim 5 , wherein a volume mixing ratio of the graphene oxide solution and the nanocomposite solution is (1:1)-(1:30). 7. The energy harvesting and self-cleaning system based on graphene aerogels according to claim 4 , wherein step S 2 , the reducing agent is ethylenediamine, hydroiodic acid, ammonia water or hydrazine hydrate. 8. The energy harvesting and self-cleaning system based on graphene aerogels according to claim 7 , wherein in step S 2 , heating is at 90-180° C. for 60 minutes-120 minutes. 9. The energy harvesting and self-cleaning system based on graphene aerogels according to claim 8 , wherein in step 4 , freeze-drying is at −20° C. to −100° C. for 1 minutes-300 minutes. 10. The energy harvesting and self-cleaning system based on graphene aerogels according to claim 8 , wherein freeze-drying is at −70° C. for 24-72 hours.