An object comprising a low rare earth mineral photoluminescent structure incorporated onto or into one or more portions of the object, the object being a photoluminescent object is disclosed. Further disclosed is a method for fabricating the object. An object comprising a low rare earth mineral phot
An object comprising a low rare earth mineral photoluminescent structure incorporated onto or into one or more portions of the object, the object being a photoluminescent object is disclosed. Further disclosed is a method for fabricating the object. An object comprising a low rare earth mineral photoluminescent composition incorporated onto or into one or more portions of the object, the object being a photoluminescent object is also disclosed, as well as, a method for fabricating the object.
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1. An object comprising: a low rare earth mineral photoluminescent structure incorporated onto or into one or more portions of said object, said object being a photoluminescent object, said low rare earth mineral photoluminescent structure comprising: a phosphorescent layer that substantially conver
1. An object comprising: a low rare earth mineral photoluminescent structure incorporated onto or into one or more portions of said object, said object being a photoluminescent object, said low rare earth mineral photoluminescent structure comprising: a phosphorescent layer that substantially converts at least a portion of incident electromagnetic radiation to a primary emission, said phosphorescent layer comprising one or more phosphorescent materials having substantially low rare earth mineral content of less than about 2.0 weight percent with an absorption spectrum that at least partially overlaps with incident electromagnetic radiation, andone or more fluorescent layers that wholly or partially convert at least said primary emission to a secondary emission, said one or more fluorescent layers having an absorption spectrum that overlaps with at least a portion of said primary emission. 2. The object of claim 1, wherein said phosphorescent layer further comprises one or more other phosphorescent materials having an absorption spectrum that at least partially overlaps with at least one of incident electromagnetic radiation, the emission spectrum of said one or more phosphorescent materials, or said secondary emission. 3. The object of claim 2, wherein said one or more other phosphorescent materials having an emission spectrum that at least partially overlaps with the absorption spectrum of said one or more phosphorescent materials. 4. The object of claim 1, wherein said phosphorescent layer being disposed over said one or more fluorescent layers, such that a surface of said phosphorescent layer is exposed to incident electromagnetic radiation. 5. The object of claim 4, wherein another said one or more fluorescent layers being overlaid onto said phosphorescent layer, such that a surface of one of said another said one or more fluorescent layers is exposed to incident electromagnetic radiation. 6. The object of claim 4, wherein said phosphorescent layer additionally provides at least one of mechanical, chemical, or photolytic stability to said one or more fluorescent layers. 7. The object of claim 1, wherein said one or more fluorescent layers being disposed over said phosphorescent layer, such that a surface of one of said one or more fluorescent layers is exposed to incident electromagnetic radiation. 8. The object of claim 1, wherein said low rare earth mineral photoluminescent structure further comprises a substrate that provides base support for said low rare earth mineral photoluminescent structure. 9. The object of claim 1, wherein said low rare earth mineral photoluminescent structure further comprises a UV layer that substantially enhances stability of said one or more fluorescent layers through absorption of at least a portion of incident ultraviolet electromagnetic radiation. 10. The object of claim 1, wherein said phosphorescent layer further comprises one or more UV absorbers that substantially enhance stability of said one or more fluorescent layers through absorption of at least a portion of incident ultraviolet electromagnetic radiation. 11. The object of claim 1, wherein said low rare earth mineral photoluminescent structure further comprises a reflection layer that redirects at least a portion of radiation emitted in at least one of said phosphorescent layer or said one or more fluorescent layers. 12. The object of claim 11, wherein said reflection layer additionally functions as a substrate that provides base support for said low rare earth mineral photoluminescent structure. 13. The object of claim 1, wherein said low rare earth mineral photoluminescent structure further comprises a protective layer that provides at least one of mechanical, chemical, or photolytic durability to said low rare earth mineral photoluminescent structure. 14. The object of claim 1, wherein said object is a shoe. 15. The object of claim 1, wherein said object is a floor covering. 16. The object of claim 1, wherein said object is a wall covering. 17. A method for fabricating an object, said method comprising: incorporating a low rare earth mineral photoluminescent structure into or onto one or more portions of said object, said object being a photoluminescent object, said low rare earth mineral photoluminescent structure comprising:a phosphorescent layer that substantially converts at least a portion of incident electromagnetic radiation to a primary emission, said phosphorescent layer comprising one or more phosphorescent materials having substantially low rare earth mineral content of less than about 2.0 weight percent with an absorption spectrum that at least partially overlaps with incident electromagnetic radiation, andone or more fluorescent layers that wholly or partially convert at least said primary emission to a secondary emission, said one or more fluorescent layers having an absorption spectrum that overlaps with at least a portion of said primary emission. 18. The method of claim 17, wherein said phosphorescent layer further comprises one or more other phosphorescent materials having an absorption spectrum that at least partially overlaps with at least one of incident electromagnetic radiation, the emission spectrum of said one or more phosphorescent materials, or said secondary emission. 19. The method of claim 18, wherein said one or more other phosphorescent materials having an emission spectrum that at least partially overlaps with the absorption spectrum of said one or more phosphorescent materials. 20. The method of claim 17, wherein said low rare earth mineral photoluminescent structure further comprises a substrate that provides base support for said low rare earth mineral photoluminescent structure. 21. The method of claim 17, wherein said phosphorescent layer further comprises one or more UV absorbers that substantially enhance stability of said one or more fluorescent layers through absorption of at least a portion of incident ultraviolet electromagnetic radiation. 22. The method of claim 17, wherein said low rare earth mineral photoluminescent structure further comprises a UV layer that substantially enhances stability of said one or more fluorescent layers through absorption of at least a portion of incident ultraviolet electromagnetic radiation. 23. The method of claim 17, wherein said low rare earth mineral photoluminescent structure further comprises a reflection layer that redirects at least a portion of radiation emitted in at least one of said phosphorescent layer or said one or more fluorescent layers. 24. The method of claim 17, wherein said low rare earth mineral photoluminescent structure further comprises a protective layer that provides at least one of mechanical, chemical, or photolytic durability to said low rare earth mineral photoluminescent structure. 25. The method of claim 17, wherein said object is a shoe. 26. The method of claim 17, wherein said object is a floor covering. 27. The method of claim 17, wherein said object is a wall covering. 28. An object comprising: a low rare earth mineral photoluminescent composition incorporated into or onto one or more portions of said object, said object being a photoluminescent object, said low rare earth mineral photoluminescent composition comprising:one or more phosphorescent materials that substantially convert at least a portion of incident electromagnetic radiation to a primary emission, said one or more phosphorescent materials having substantially low rare earth mineral content of less than about 2.0 weight percent with an absorption spectrum that at least partially overlaps with incident electromagnetic radiation, andone or more fluorescent materials that wholly or partially convert at least said primary emission to a secondary emission, said one or more fluorescent materials having an absorption spectrum that overlaps with at least a portion of said primary emission. 29. The object of claim 28, wherein said low rare earth mineral photoluminescent composition further comprises one or more other phosphorescent materials having an absorption spectrum that at least partially overlaps with at least one of incident electromagnetic radiation, the emission spectrum of said one or more phosphorescent materials, or said secondary emission. 30. The object of claim 29, wherein said one or more other phosphorescent materials having an emission spectrum that at least partially overlaps with the absorption spectrum of said one or more phosphorescent materials. 31. The object of claim 28, further comprising a reflection layer that redirects at least a portion of radiation emitted in said low rare earth mineral photoluminescent composition. 32. The object of claim 31, wherein said reflection layer additionally functions as a substrate that provides base support for said low rare earth mineral photoluminescent composition. 33. The object of claim 28, wherein said low rare earth mineral photoluminescent composition further comprises one or more UV absorbers that further substantially enhance stability of said one or more fluorescent materials through absorption of at least a portion of incident ultraviolet electromagnetic radiation. 34. The object of claim 28, further comprising one or more fluorescent layers having one or more fluorescent materials with an absorption spectrum that at least partially overlaps with the emission spectrum of said one or more phosphorescent materials, such that a longer emissive wavelength is produced. 35. The object of claim 28, wherein said object is a shoe. 36. The object of claim 28, wherein said object is a floor covering. 37. The object of claim 28, wherein said object is a wall covering. 38. A method for fabricating an object, said method comprising: incorporating a low rare earth mineral photoluminescent composition into or onto one or more portions of said object, said object being a photoluminescent object, said low rare earth mineral photoluminescent composition comprising:one or more phosphorescent materials that substantially convert at least a portion of incident electromagnetic radiation to a primary emission, said one or more phosphorescent materials having substantially low rare earth mineral content of less than about 2.0 weight percent with an absorption spectrum that at least partially overlaps with incident electromagnetic radiation, andone or more fluorescent materials that wholly or partially convert at least said primary emission to a secondary emission, said one or more fluorescent materials having an absorption spectrum that overlaps with at least a portion of said primary emission. 39. The method of claim 38, wherein said low rare earth mineral photoluminescent composition further comprises one or more other phosphorescent materials having an absorption spectrum that at least partially overlaps with at least one of incident electromagnetic radiation, the emission spectrum of said one or more phosphorescent materials, or said secondary emission. 40. The method of claim 39, wherein said one or more other phosphorescent materials having an emission spectrum that at least partially overlaps with the absorption spectrum of said one or more phosphorescent materials. 41. The method of claim 38, wherein said low rare earth mineral photoluminescent composition further comprises one or more UV absorbers that substantially enhance stability of said one or more fluorescent materials through absorption of at least a portion of incident ultraviolet electromagnetic radiation. 42. The method of claim 38, further comprising disposing a reflection layer into or onto one or more portions of said object, said reflection layer redirects at least a portion of radiation emitted in said low rare earth mineral photoluminescent composition. 43. The method of claim 42, wherein said reflection layer additionally functions as a substrate that provides base support for said low rare earth mineral photoluminescent composition. 44. The method of claim 38, further comprising disposing one or more fluorescent layers into or onto one or more portions of said object, said one or more fluorescent layers having one or more fluorescent materials with an absorption spectrum that at least partially overlaps with the emission spectrum of said one or more phosphorescent materials, such that a longer emissive wavelength is produced. 45. The method of claim 38, wherein said object is a shoe. 46. The method of claim 38, wherein said object is a floor covering. 47. The method of claim 38, wherein said object is a wall covering.
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