Photocatalyst nanocomposite

The invention claimed is: 1. A photocatalyst nanocomposite, comprising: Au nanoparticles, hexagonal wurtzite ZnO nanoparticles, and reduced graphene oxide (rGO), wherein the photocatalyst nanocomposite is made by the method of preparing an aqueous suspension of zinc acetate, chloroauric acid, and graphene oxide; mixing the aqueous suspension with a date seed extract to form a mixture; and heating the mixture at a temperature in the range of 100-200° C. for a time in the range of 10 to 20 hours to form the photocatalyst nanocomposite; wherein the date seed extract is prepared by grinding a date seed and heating the ground date seed in water at a temperature in the range of 60 to 100° C. for a time in the range of 1 to 5 hours and separating solids to form the date seed extract in the form of a liquid, wherein the photocatalyst nanocomposite comprises rGO in an amount in the range of 40 wt. % to 60 wt. % of the total weight of the photocatalyst nanocomposite, wherein the Au nanoparticles have a diameter in the range of 15 to 20 nm and are homogeneously distributed on the ZnO nanoparticles and on the rGO; the ZnO nanoparticles have a diameter in the range of 30 to 40 nm and are present on the rGO; and the Au nanoparticles are present in an amount in the range of 2 mol. % to 10 mol. % based on the molar amount of the ZnO nanoparticles, and wherein the photocatalyst nanocomposite catalyzes the photodecomposition of methyl orange in an aqueous solution at a faster rate than a photocatalyst nanocomposite prepared by a substantially similar method but with NaOH instead of a date seed extract. 2. The photocatalyst nanocomposite of claim 1 , wherein the photocatalyst composite comprises rGO in an amount in the range of 48 wt. % to 52 wt. % of the total weight of the nanocomposite. 3. The photocatalyst nanocomposite of claim 1 , wherein the photocatalyst nanocomposite comprises 5 mol. % of Au based on the molar amount of the ZnO. 4. The photocatalyst nanocomposite of claim 1 , wherein: reduced graphene oxide is present in an amount of about 49 wt. %; ZnO nanoparticles are present in an amount of about 45.5 wt. %, each weight percent relative to the total weight of the photocatalyst nanocomposite; and gold nanoparticles in an amount of about 5.5 mol. % based on the molar amount of the ZnO. 5. A method of photodecomposing of an organic compound, comprising: contacting the photocatalyst nanocomposite of claim 1 with an aqueous solution of an organic compound to form a mixture, and irradiating the mixture with sunlight. 6. A process of purifying water contaminated with an organic material, comprising: contacting the contaminated water with the photocatalyst nanocomposite of claim 4 , and irradiating the mixture with sunlight. 7. The photocatalyst nanocomposite of claim 1 , wherein the methyl orange is present in the aqueous solution at a concentration of 20 ppm, and the photocatalyst is present in the aqueous solution at a concentration of 1 g/L. 8. The photocatalyst nanocomposite of claim 1 , wherein in the preparation of the date seed extract, the ground date seed is suspended in water at a concentration in a range of 250-350 g/L. 9. The photocatalyst nanocomposite of claim 1 , wherein in the preparation of the date seed extract, the ground date seed is heated in water at a temperature in a range of 70-90° C. 10. The photocatalyst nanocomposite of claim 1 , wherein the mixture comprises 33 vol % date seed extract relative to a total volume of the mixture. 11. The photocatalyst nanocomposite of claim 7 , wherein about 99% of the methyl orange is photodegraded after 65 minutes of illumination. 12. The photocatalyst nanocomposite of claim 7 , wherein about 95% of the methyl orange is photodegraded after 65 minutes of illumination. 13. The photocatalyst nanocomposite of claim 12 , wherein the illumination source is a 125 W sunlight simulating lamp. 14. The photocatalyst nanocomposite of claim 1 , wherein the Au nanoparticles comprise Au nanoparticles that are in contact with the rGO but not in contact with the ZnO nanoparticles. 15. The photocatalyst nanocomposite of claim 14 , wherein the Au nanoparticles further comprise Au nanoparticles that are in contact with both the rGO and the ZnO nanoparticles. 16. The photocatalyst nanocomposite of claim 1 , wherein the rGO comprises at least three stacked sheets of rGO intercalated with the Au nanoparticles and the ZnO nanoparticles.