Face mask having improved comfort through cooling of microclimate through use of a phase change material

What is claimed is: 1. A face mask formed from a splash resistant multi-layered structure, the multi-layered structure comprising: an outer layer of material having an outer-facing surface and an inner-facing surface; an inner layer of material having an outer-facing surface and an inner-facing surface; and a first plurality of three-dimensional spacers disposed on the inner-facing surface of the inner layer of the multi-layered structure, wherein the first plurality of three-dimensional spacers are arranged in a discontinuous pattern, further wherein the first plurality of three-dimensional spacers include an encapsulated phase change material. 2. The face mask of claim 1 , wherein the encapsulated phase change material is encapsulated with a binder. 3. The face mask of claim 1 , wherein the first plurality of three-dimensional spacers are arranged on a substrate. 4. The face mask of claim 3 , wherein the substrate is a nonwoven material. 5. The face mask of claim 3 , wherein the substrate covers about 10% to about 100% of the surface area of the inner-facing surface of the inner layer of the face mask. 6. The facemask of claim 4 , wherein the nonwoven material is a polyester, a polyolefin, a blend of natural fibers, or a combination thereof. 7. The face mask of claim 3 , wherein the substrate is disposed in a border around a perimeter of the face mask. 8. The face mask of claim 7 , wherein the border has a width of from about 0.5 millimeters to about 15 millimeters. 9. The face mask of claim 1 , wherein the face mask cools a microclimate formed between the inner layer of the face mask and a wearer's face by a temperature ranging from about 1° C. to about 7° C. after exhalation by the wearer. 10. The face mask of claim 1 , wherein the phase change material provides from about 2600 Joules/m 2 of cooling to about 20,000 Joules/m 2 of cooling to the face mask by absorbing heat from exhaled air in an area of dead space in the face mask and by absorbing heat from a user's skin. 11. The face mask of claim 1 , wherein the phase change material provides at least about 30 Joules of cooling to the face mask by absorbing heat from exhaled air in an area of dead space in the face mask and by absorbing heat from a user's skin. 12. The face mask of claim 1 , further comprising a second plurality of three-dimensional spacers disposed on a surface located within the multi-layered structure, wherein the second plurality of three-dimensional spacers define a space between the outer layer of material and at least one additional layer of material positioned between the outer layer of material and the inner layer of material, wherein the space spans a distance at least as great as a maximum height of the second plurality of three-dimensional spacers, further wherein the second plurality of three-dimensional spacers aid in absorbing and dispersing the energy associated with a fluid contacting the outer layer of material. 13. The face mask of claim 12 , wherein the second plurality of three-dimensional spacers define a plurality of channels for redirecting the flow of fluid that strikes the outer layer of material, wherein the channels have an orientation such that the fluid is directed laterally away from the point of contact of the fluid through the channels. 14. The face mask of claim 12 , wherein the second plurality of three-dimensional spacers are arranged in a continuous or discontinuous pattern. 15. The face mask of claim 14 , wherein the pattern is a discontinuous pattern, wherein the discontinuous pattern comprises a plurality of dots, wherein the dots are arranged on the additional layer of material in a series of columns and a series of rows. 16. The face mask of claim 12 , wherein the second plurality of three-dimensional spacers comprise a binder, an ink, an adhesive, or a combination thereof. 17. The face mask of claim 12 , wherein the second plurality of three-dimensional spacers further comprise a functional additive contained within the binder, the ink, the adhesive, of the combination thereof, wherein the functional additive comprises a phase change material, a fragrance, an absorbent material, a superabsorbent material, an antimicrobial, a therapeutic agent, a topical ointment, or a combination thereof. 18. The face mask of claim 17 , wherein the functional additive is present in an amount ranging from about 0.25 wt. % to about 70 wt. % based on the dry weight of the second plurality of three-dimensional spacers present within the multi-layered structure. 19. The face mask of claim 12 , wherein the second plurality of three-dimensional spacers are disposed on an outer-facing surface of the at least one additional layer of material. 20. The face mask of claim 12 , wherein the at least one additional layer of material is a spunbond web positioned adjacent the outer layer of material, wherein the multi-layered structure further comprises a meltblown web, wherein the meltblown web is positioned towards the inner layer of material. 21. The face mask of claim 12 , wherein the outer layer of material is a spunbond web, the inner layer of material is a nonwoven polyester, and wherein three additional layers of material are positioned between the outer layer and the inner layer, wherein a first additional layer of material is a spunbond web positioned adjacent the inner-facing surface of the outer layer, wherein a second additional layer of material is a meltblown web positioned adjacent an inner-facing surface of the first additional layer of material, and wherein a third additional layer of material is a spunbond web positioned between an inner-facing surface of the second additional layer of material and an outer-facing surface of the inner layer of material. 22. A face mask of claim 1 , wherein the inner layer of material, the outer layer of material, or a combination thereof comprises a thermally conductive material, wherein the thermally conductive material reduces the R-value of the inner layer of material, the outer layer of material, or a combination thereof. 23. A face mask of claim 1 , wherein a coating comprising a thermally conductive material is disposed on a surface of the inner layer of material, a surface of the outer layer of material, or a combination thereof, wherein the thermally conductive material reduces the R-value of the inner layer of material, the outer layer of material, or a combination thereof. 24. The face mask of claim 22 , wherein the thermally conductive material comprises metal particles, metal fibers, a metal ink, a thermally conductive polymer, carbon, or a combination thereof. 25. A face mask of claim 1 , wherein the inner layer of material, the outer layer of material, or a combination thereof comprises a moisture absorptive material, wherein the moisture absorptive material reduces the R-value of the inner layer of material, the outer layer of material, or a combination thereof. 26. The face mask of claim 25 , wherein the moisture absorptive material comprises cotton fibers, rayon fibers, surfactant-treated cellulosic fibers, or a combination thereof. 27. A face mask formed from a splash resistant multi-layered structure, the multi-layered structure comprising: an outer layer of material having an outer-facing surface and an inner-facing surface; an inner layer of material having an outer-facing surface and an inner-facing surface; and a plurality of three-