Low reflectance optical web

The invention claimed is: 1. An optical web comprising: a substrate having a substrate refractive index, the substrate having an anterior side and an opposing posterior side; an anterior coating including a first anterior layer applied to the anterior side of the substrate, the first anterior layer having a first anterior layer refractive index, a posterior coating including a first posterior layer applied to the posterior side of the substrate, the first posterior layer having a first posterior layer refractive index, wherein the substrate refractive index is greater than the first anterior refractive index and the first posterior refractive index, wherein the first anterior layer refractive index is between about 1.40 and about 1.50. 2. The optical web of claim 1 , wherein the anterior coating comprises a second anterior layer applied to the first anterior layer, the second anterior layer having a second anterior refractive index that is less than the first anterior refractive index. 3. The optical web of claim 2 , wherein the posterior coating comprises a second posterior layer applied to the first posterior layer, the second posterior layer having a second posterior refractive index that is less than the first posterior refractive index. 4. The optical web of claim 1 , further comprising an adhesive layer laminated to at least one of the anterior or posterior side, the adhesive layer comprising a refractive index matched to within about 0.2 of the substrate refractive index. 5. The optical web of claim 1 , wherein the anterior coating comprises a plurality of coating layers, individual coating layers having individual refractive indexes, wherein the individual coating layers are arranged so that the individual refractive indexes of successive individual coating layers decrease in a monotonic function from the base layer toward an anterior side of the optical web. 6. The optical web of claim 5 , wherein the substrate refractive index is at least about 1.53, and wherein the individual refractive index of an individual coating layer forming the anterior side of the optical web is no greater than about 1.46. 7. The optical web of claim 1 , wherein the substrate refractive index is about 1.64 to about 1.67, and wherein the individual refractive index of an individual coating layer forming the anterior side of the optical web is about 1.33 to about 1.42. 8. The optical web of claim 1 , wherein the optical web is wrapped about an axis to form a roll of web material. 9. The optical web of claim 1 , wherein the substrate comprises biaxially-oriented polyethylene terephthalate (BoPET). 10. The optical web of claim 1 , wherein the substrate comprises polycarbonate or acrylic. 11. The optical web of claim 1 , wherein the first anterior layer comprises a polymer with a low index of refraction. 12. The optical web of claim 1 , wherein the substrate has a thickness of at least about 2 microns. 13. The optical web of claim 12 , wherein the first anterior layer and the first posterior layer have a thickness greater than about 2 microns. 14. A shield for a garment comprising a cut portion of the optical web of claim 1 . 15. The shield of claim 14 , wherein the shield has been sterilized using gamma radiation. 16. The shield of claim 15 , wherein the shield is colorless after gamma being sterilized using gamma radiation. 17. An optical web comprising: a substrate having a substrate refractive index; a first coating layer applied to the substrate, the first coating layer having a first coating refractive index, a second coating layer applied to the first coating layer so that the first coating layer is positioned between the substrate and the second coating layer, the second coating layer having a second coating refractive index, wherein the first coating refractive index is greater than the second coating refractive index, and wherein the substrate refractive index is greater than the first coating refractive index, wherein the substrate refractive index is at least about 1.53, wherein the first coating refractive index is between about 1.44 and about 1.48, and wherein the second coating refractive index is no greater than about 1.43. 18. The optical web of claim 17 , further comprising a posterior coating layer applied to the substrate, the posterior coating layer having a posterior coating refractive index, wherein the posterior coating refractive index is less than the substrate refractive index. 19. The optical web of claim 17 , wherein the optical web is further coated with at least one of a scratch resistant coating, an anti-fog coating, an anti-fingerprint coating, a matte coating, a hard coating, or an anti-glare coating. 20. A method of manufacturing a laminated optical structure comprising: forming a first optical structure and a second optical structure by applying an anterior coating to an anterior side of a substrate and applying a posterior coating to a posterior side of a substrate; and laminating the first and second optical structures together via an adhesive layer, the adhesive layer being configured to allow one optical structure to be peelably removed from the other, wherein the substrate has a substrate refractive index, wherein the anterior coating includes a first anterior layer applied to the anterior side of the substrate, the first anterior layer having a first anterior layer refractive index, wherein the posterior coating includes a first posterior layer applied to the posterior side of the substrate, the first posterior layer having a first posterior layer refractive index, wherein the substrate refractive index, the first anterior layer refractive index, and the first posterior layer refractive index are greater than 1.00, wherein the substrate refractive index is greater than the first anterior refractive index and the first posterior refractive index, and wherein the adhesive layer has an adhesive refractive index matched to within about 0.2 of the substrate refractive index. 21. The method of claim 20 , further comprising cutting the laminated optical structure to form an optical shield, and attaching the optical shield to a garment. 22. The method of claim 21 , wherein the optical shield is sterilized using gamma radiation, and remains colorless after sterilization.