Hybrid fluorescent UV dye for refrigerant systems

What is claimed is: 1. A hybrid structure ultraviolet dye for leak detection in an appliance, comprising: a ceramic matrix defining pores; and encapsulated fluorophore nanoparticles non-covalently bonded to the ceramic matrix within the pores, wherein upon excitation, the encapsulated fluorophore nanoparticles release energy and emit fluorescent light to be detected under an ultraviolet lamp. 2. The ultraviolet dye of claim 1 , wherein the encapsulated fluorophore nanoparticles exhibit red, yellow, orange, or shades therebetween. 3. The ultraviolet dye of claim 1 , wherein the ceramic matrix is a silica, a colloidal silica matrix, an alumina matrix, a titania matrix, or a zirconia matrix. 4. The ultraviolet dye of claim 1 , the encapsulated fluorophore nanoparticles include a mixture of fluorphores and a dye pigment. 5. The ultraviolet dye of claim 1 , wherein the encapsulated fluorophore nanoparticles each individually have an average particle size of 1 to 10 nm. 6. The ultraviolet dye of claim 1 , wherein the encapsulated fluorophore nanoparticles are coagulated and have an average coagulated group size of 10 to 150 nm. 7. The ultraviolet dye of claim 1 , wherein the encapsulated fluorophore nanoparticles are loaded onto the ceramic matrix at 0.5% to 10% by weight. 8. A sealed system for a home appliance comprising: a compressor; at least one heat exchanger; tubing connecting and between the compressor and each of the at least one heat exchanger; and a refrigerant within the connecting tubing and flowing between the compressor and the at least one heat exchanger through the sealed system, the refrigerant including a hybrid structure ultraviolet dye having encapsulated fluorophore nanoparticles bonded to a ceramic matrix, wherein responsive to application of an ultraviolet light, the encapsulated fluorophore nanoparticles emit fluorescence such that leaks can be located based on presence of the hybrid structure ultraviolet dye on external surfaces of the sealed system. 9. The sealed system of claim 8 , wherein the refrigerant includes 0.25% to 10% by weight of the hybrid structure ultraviolet dye. 10. The sealed system of claim 8 , wherein the encapsulated fluorophore nanopartciles exhibit red, yellow, orange, or shades therebetween. 11. The sealed system of claim 8 , wherein the encapsulated fluorophore nanoparticles are non-covalently bonded to the ceramic matrix. 12. The sealed system of claim 8 , wherein the ceramic matrix is a silica, a colloidal silica matrix, an alumina matrix, a titania matrix, or a zirconia matrix. 13. The ultraviolet dye of claim 1 , wherein the encapsulated fluorophore nanoparticles each individually have an average particle size of 1 to 10 nm. 14. The ultraviolet dye of claim 1 , wherein the encapsulated fluorophore nanoparticles are coagulated and have an average coagulated group size of 10 to 150 nm. 15. The ultraviolet dye of claim 1 , the encapsulated fluorophore nanoparticles include a mixture of fluorophores and a dye pigment. 16. A method of detecting a leak in a sealed system of a home appliance comprising: adding a hybrid structure ultraviolet dye to a refrigerant, the hybrid structure ultraviolet dye including encapsulated fluorophore nanoparticles bonded to a ceramic matrix; circulating the refrigerant through components of the sealed system such that the refrigerant, the hybrid structure ultraviolet dye, or both exit the sealed system at a leak onto external surfaces of the components; and locating the leak by applying a UV light to the external surfaces and observing a color emitted by the encapsulated fluorophore nanoparticles. 17. The method of claim 16 , wherein the hybrid structure ultraviolet dye further includes a mixture of fluorphores and dye pigment in the encapsulated fluorophore nanoparticles such that the observing may be viewing a dye color exhibited on the external surfaces. 18. The method of claim 16 wherein the adding the hybrid structure ultraviolet dye to the refrigerant is conducted after opening the sealed system. 19. The method of claim 16 , wherein the color is red, yellow, orange, or shades therebetween.