Article of footwear with soil-shedding performance

What is claimed: 1. An outsole for an article of footwear, the outsole comprising: an outsole backing member having a ground-facing surface; a film comprising a crosslinked polymeric material, on the ground-facing surface and defining an external surface of the outsole, wherein the film has a wet-state contact angle less than 80°, as characterized by a Contact Angle Test with a Footwear Sampling Procedure; and a plurality of traction elements on the ground-facing surface of the outsole backing member. 2. The outsole of claim 1 , wherein the wet-state contact angle is less than 70°. 3. The outsole of claim 1 , wherein the crosslinked polymeric material comprises a thermoplastic hydrogel. 4. The outsole of claim 3 , wherein the hydrogel comprises crystalline regions and amorphous hydrophilic regions, wherein the amorphous hydrophilic regions are covalently bonded to the crystalline regions. 5. The outsole of claim 4 , wherein the amorphous hydrophilic regions are bonded to the crystalline regions with carbamate linkages. 6. The outsole of claim 4 , wherein the amorphous hydrophilic regions are present in the hydrogel at a ratio of at least 20:1 by weight relative to the crystalline regions. 7. The outsole of claim 1 , wherein the film has a dry-state film thickness ranging from 0.1 millimeters to 1.5 millimeters. 8. The outsole of claim 1 , wherein the film has a wet-state coefficient of friction less than 0.8, as characterized by a Coefficient Of Friction Test with the Footwear Sampling Procedure. 9. The outsole of claim 8 , wherein the film has a dry-state coefficient of friction less than 1.5, as characterized by the Coefficient Of Friction Test with the Footwear Sampling Procedure. 10. The outsole of claim 1 , wherein each of the plurality of traction elements comprises a terminal edge, and wherein the film is not present on the terminal edges of any of the plurality of traction elements. 11. The outsole of claim 1 , wherein one or more of the traction elements is selected from the group consisting of: a cleat, a stud, a spike, and a lug. 12. The outsole of claim 1 , wherein the traction elements are integrally formed with the outsole backing member. 13. The outsole of claim 1 , wherein the traction elements are removable traction elements. 14. The outsole of claim 1 , wherein the crosslinked polymeric material has one or more carbamate linkages. 15. An outsole for an article of footwear, the outsole comprising: an outsole substrate having a ground-facing surface and a second surface opposite of the ground-facing surface, wherein the second surface is configured to be secured to an upper of the article of footwear; a film comprising a crosslinked polymeric material on at least a portion of the ground-facing surface and defining an external surface of the outsole, and wherein the film has a dry-state contact angle and a wet-state contact angle, each as characterized by a Contact Angle Test with a Footwear Sampling Procedure, and wherein the dry-state contact angle is at least 10° greater than the wet-state contact angle; and a plurality of traction elements on the ground-facing surface of the outsole substrate. 16. The outsole of claim 15 , wherein the wet-state contact angle is less than 80°. 17. The outsole of claim 15 , wherein the film has a dry-state coefficient of friction and a wet-state coefficient of friction, each as characterized by a Coefficient Of Friction Test with the Footwear Sampling Procedure, and wherein a difference between the dry-state coefficient of friction and the wet-state coefficient of friction is at least 0.3, the dry-state coefficient of friction being greater than the wet-state coefficient of friction. 18. The outsole of claim 17 , wherein the wet-state coefficient of friction is less than 0.6. 19. The outsole of claim 15 , wherein the crosslinked polymeric material comprises a thermoplastic hydrogel. 20. The outsole of claim 19 , wherein the hydrogel comprises crystalline regions and amorphous hydrophilic regions, wherein the amorphous hydrophilic regions are covalently bonded to the crystalline regions. 21. The outsole of claim 20 , wherein the amorphous hydrophilic regions are bonded to the crystalline regions with carbamate linkages. 22. The outsole of claim 20 , wherein the amorphous hydrophilic regions are present in the hydrogel at a ratio of at least 20: by weight relative to the crystalline regions. 23. The outsole of claim 15 , wherein each of the plurality of traction elements comprises a terminal edge, and wherein the film is not present on the terminal edges of any of the plurality of traction elements. 24. The outsole of claim 15 , wherein one or more of the traction elements is selected from the group consisting of: a cleat, a stud, a spike, and a lug. 25. The outsole of claim 15 , wherein the traction elements are integrally formed with the outsole substrate. 26. The outsole of claim 15 , wherein the traction elements are removable traction elements. 27. The outsole of claim 15 , wherein the crosslinked polymeric material has one or more carbamate linkages. 28. An article of footwear comprising: an outsole having a first side and a second side, wherein the second side is a ground-facing surface, a film comprising a crosslinked polymeric material on the ground-facing surface, wherein the film has a dry-state contact angle ranging from 60° to 100° and a wet-state contact angle, each as characterized by a Contact Angle Test with a Footwear Sampling Procedure, and wherein the dry-state contact angle is at least 10° greater than the wet-state contact angle, of a plurality of traction elements on the ground-facing surface of the outsole; and an upper operably secured to at least a portion of the first side of the outsole. 29. The article of footwear of claim 28 , wherein the dry-state contact angle ranges from 70° to 100°. 30. The article of footwear of claim 28 , wherein the crosslinked polymeric material comprises a thermoplastic hydrogel. 31. The outsole of claim 30 , wherein the hydrogel comprises crystalline regions and amorphous hydrophilic regions, wherein the amorphous hydrophilic regions are covalently bonded to the crystalline regions. 32. The outsole of claim 31 , wherein the amorphous hydrophilic regions are bonded to the crystalline regions with carbamate linkages. 33. The outsole of claim 31 , wherein the amorphous hydrophilic regions are present in the hydrogel at a ratio of at least 20:1 by weight relative to the crystalline regions. 34. The article of footwear of claim 28 , wherein the film has a dry-state film thickness ranging from 0.1 millimeters to 1.5 millimeters. 35. The article of claim 28 , wherein each of the plurality of traction elements comprises a terminal edge, and wherein the film is not present on the terminal edges of any of the plurality of traction elements. 36. The article of claim 28 , wherein one or more of the traction elements is selected from the group consisting of: a cleat, a stud, a spike, and a lug. 37. The article of claim 28 , wherein the traction elements are integrally formed with the outsole. 38. The article of claim 28 , wherein the traction elements are removable tract