Increasing anti-corrosion through nanocomposite materials

The invention claimed is: 1. An epoxy-based primer for an anti-corrosion coating composition for a substrate comprising: non-chromate inhibitors, wherein non-chromate inhibitors comprise praseodymium, manganese, aluminum, a rare earth metal, or combinations thereof; partially oxidized graphene particles mixed into the epoxy-based primer, wherein the partially oxidized graphene particles are nanoplatelets having average diameters between 1 nanometer and 25 nanometers, wherein the partially oxidized graphene particles contain at least 5% oxygen by weight, and wherein the partially oxidized graphene particles are between 0.50% and 1.00% by weight of the epoxy-based primer; and alkoxysilanes mixed with the partially oxidized graphene particles to form a suspension, wherein a portion of the alkoxysilanes are hydrolyzed to include hydrolyzed alkoxy units that functionalize oxygen units on the partially oxidized graphene particles and terminal functional units of the portion of alkoxysilanes react with the epoxy-based primer by promoting covalent bonding and wherein excess alkoxysilanes remain in the suspension. 2. The epoxy-based primer of claim 1 , wherein the partially oxidized graphene particles contain at least 5% by weight and up to 15% oxygen by weight. 3. The epoxy-based primer of claim 1 , wherein the epoxy-based primer further comprises a base component, a catalyst component, and a thinner. 4. An article comprises: a substrate; an anodized layer on the substrate; a sealant, wherein the sealant comprises trivalent chromium; and an anti-corrosion layer attached to the anodizing layer opposite the substrate, the anti-corrosion layer comprising an epoxy-based primer containing partially oxidized graphene particles functionalized with an alkoxysilane and non-chromate inhibitors, wherein the partially oxidized graphene particles are nanoplatelets having average diameters between 1 nanometer and 25 nanometers, wherein the partially oxidized graphene particles contain at least 5% oxygen by weight, wherein the partially oxidized graphene particles are between 0.50% and 1.00% by weight of the epoxy-based primer, wherein the partially oxidized graphene particles form a uniform Cr 2 O 3 layer from trivalent chromium in the sealant, wherein non-chromate inhibitors comprise praseodymium, manganese, silane, aluminum, zinc, a rare earth metal, or combinations thereof, wherein the alkoxysilanes are mixed with the partially oxidized graphene particles to form a suspension, and wherein a portion of the alkoxysilanes are hydrolyzed to include hydrolyzed alkoxy units that functionalize oxygen units on the partially oxidized graphene particles and terminal functional units of the portion of alkoxysilanes react with the epoxy-based primer by promoting covalent bonding, wherein unreacted alkoxysilanes condense and bind to the anodized layer to form an additional barrier layer, and wherein excess alkoxysilanes remain in the suspension. 5. The article of claim 4 , wherein the substrate is selected from the group consisting of aluminum, steel, zinc, nickel, and alloys thereof. 6. The article of claim 4 , wherein the partially oxidized graphene particles contains at least 10% oxygen by weight. 7. The article of claim 6 , wherein the partially oxidized graphene particles contains at least 15% oxygen by weight. 8. The article of claim 7 , wherein the partially oxidized graphene particles contain at least 20% oxygen by weight. 9. The article of claim 8 , wherein the partially oxidized graphene particles contain at least 25% oxygen by weight. 10. The article of claim 4 , further comprising a topcoat attached to the epoxy-based primer opposite the anodizing layer. 11. The article of claim 10 , wherein the topcoat comprises partially oxidized graphene particles. 12. A method of preventing corrosion comprises: anodizing a surface of a metallic substrate such that an anodized layer is formed on the metallic substrate; applying a sealant to the anodized layer, wherein the sealant comprises trivalent chromium; and applying an epoxy-based primer with partially oxidized graphene particles, alkoxysilanes, and non-chromate inhibitors to the sealant on the anodized layer on the metallic substrate, wherein the partially oxidized graphene particles are nanoplatelets having average diameters between 1 nanometer and 25 nanometers, wherein the partially oxidized graphene particles contain at least 5% oxygen by weight, wherein the partially oxidized graphene particles are between 0.50% and 1.00% by weight of the epoxy-based primer, wherein the partially oxidized graphene particles form a uniform Cr 2 O 3 layer from trivalent chromium in the sealant, wherein non-chromate inhibitors comprise praseodymium, manganese, silane, aluminum, zinc, a rare earth metal, or combinations thereof, wherein the alkoxysilanes are mixed with the partially oxidized graphene particles to form a suspension, wherein a portion of the alkoxysilanes are hydrolyzed to include hydrolyzed alkoxy units that functionalize oxygen units on the partially oxidized graphene particles and terminal functional units of the portion of alkoxysilanes react with the epoxy-based primer by promoting covalent bonding, wherein unreacted alkoxysilanes condense and bind to the anodized layer to form an additional barrier layer, and wherein excess alkoxysilanes remain in the suspension. 13. The method of claim 12 , further comprising applying a topcoat to the epoxy-based primer opposite the metallic substrate. 14. The method of claim 12 , wherein the epoxy-based primer is prepared by: dispersing the partially oxidized graphene particles in water to create a dispersion; functionalizing the partially oxidized graphene particles by adding the alkoxysilanes to the dispersion; adding an epoxy primer base component to the dispersion; mixing the dispersion such that the dispersion is homogenous; and mixing a primer catalyst in the dispersion. 15. The method of claim 12 , wherein applying the epoxy-based primer comprises spraying a layer of the epoxy-based primer between 0.0005 inches and 0.002 inches thick.