Photoalignment film, method for manufacturing the same, and liquid crystal display panel including the same

What is claimed is: 1 . A photoalignment film, comprising: a fibrous layer including a plurality of stacked fibers including a photoalignment material, the photoalignment material having optical anisotropy in a first direction along which longitudinal axes of the fibers are arranged, the fibrous layer having a bent surface according to a difference in stacking height between the fibers. 2 . The photoalignment film of claim 1 , wherein the bent surface forms a concavo-convex structure of a stripe pattern that alternates along a second direction that is perpendicular to the first direction. 3 . The photoalignment film of claim 1 , wherein each fiber comprises main chains of polymer chains and side chains bonded to the main chains and aligned in the first direction. 4 . The photoalignment film of claim 3 , wherein the side chain comprises the photoalignment material, and the photoalignment material is at least one selected from the group consisting of a ring type imide-based material, a cinnamate-based material, a chalcone-based material, a coumarine-based material, and an azo-based material. 5 . A method for manufacturing a photoalignment film, the method comprising: forming a fibrous layer having a bent surface according to a difference in stacking height between polymer fibers through continuous spinning of the polymer fibers including a photoalignment material along a first direction on a substrate; and providing optical anisotropy to the photoalignment material in the first direction through irradiation of linearly polarized UV light on the fibrous layer. 6 . The method for manufacturing a photoalignment film of claim 5 , wherein the polymer fiber is manufactured using electrospinning. 7 . The method for manufacturing a photoalignment film of claim 6 , wherein the polymer fiber comprises main chains of polymer chains and side chains bonded to the main chains and aligned in the first direction. 8 . The method for manufacturing a photoalignment film of claim 7 , wherein the side chain comprises the photoalignment material, and the photoalignment material is at least one selected from the group consisting of a photo dimerization material, a photo isomerization material, and a photo decomposition material. 9 . The method for manufacturing a photoalignment film of claim 8 , wherein the photo dimerization material is a cinnamate-based material, the photo isomerization material is an azo-based material, and the photo decomposition material is a ring type polyimide-based material including cyclobutane dianhydride (CBDA). 10 . The method for manufacturing a photoalignment film of claim 5 , further comprising: performing first baking of the fibrous layer before the photoalignment; and performing second baking of the fibrous layer after the photoalignment. 11 . A liquid crystal display panel, comprising: a liquid crystal layer interposed between a first substrate and a second substrate; a first photoalignment film interposed between the first substrate and the liquid crystal layer; and a second photoalignment film interposed between the second substrate and the liquid crystal layer, each photoalignment film forming a fibrous layer including a plurality of stacked fibers including a photoalignment material, the photoalignment material having optical anisotropy in a first direction along which longitudinal axes of the fibers are arranged, a surface of the fibrous layer having periodic grooves according to a difference in stacking height between the fibers, liquid crystals of the liquid crystal layer accommodated in the periodic grooves on the surface of the fibrous layer, and the liquid crystals aligned in the first direction when an electric field is not applied. 12 . The liquid crystal display panel of claim 11 , wherein the periodic grooves are repeated along a second direction that is perpendicular to the first direction. 13 . The liquid crystal display panel of claim 11 , wherein each fiber comprises main chains of polymer chains and side chains bonded to the main chains and aligned in the one direction. 14 . The liquid crystal display panel of claim 13 , wherein the side chain comprises the photoalignment material, and the photoalignment material is at least one selected from the group consisting of a ring type imide-based material, a cinnamate-based material, a chalcone-based material, a coumarine-based material, and an azo-based material.