Anisotropy reduction in coating of conductive films

The invention claimed is: 1. A conductive film, comprising: a plurality of conductive nanostructures, wherein: at least some of the plurality of conductive nanostructures are reoriented, the conductive film has a first dimension and a second dimension perpendicular to the first dimension, both the first dimension and the second dimension are perpendicular to a normal of the conductive film, the conductive film has an anisotropy, which is defined as a ratio of a first sheet resistance and a second sheet resistance, the first sheet resistance is measured at a given location along the first dimension and the second sheet resistance is measured at the given location along the second dimension, and the anisotropy is greater than 1 and less than 2 according to a reorientation of the at least some of the plurality of conductive nanostructures. 2. The conductive film of claim 1 , wherein the anisotropy is greater than 1 and less than 1.2. 3. The conductive film of claim 1 , wherein: the conductive film has a plurality of anisotropies, each of the plurality of anisotropies is defined as the ratio of the first sheet resistance and the second sheet resistance, for each of the plurality of anisotropies, the first sheet resistance is measured at a given location along the first dimension and the second sheet resistance is measured at the given location along the second dimension, the conductive film has a maximum anisotropy and a minimum anisotropy among the plurality of anisotropies, and a difference between the maximum anisotropy and the minimum anisotropy is less than 25% of the minimum anisotropy according to the reorientation of the at least some of the plurality of conductive nanostructures. 4. The conductive film of claim 3 , wherein the difference between the maximum anisotropy and the minimum anisotropy is less than 10% of the minimum anisotropy. 5. The conductive film of claim 1 , wherein the first dimension is along a machine direction of a substrate travelling in a roll to roll coating, and the second dimension is along a transverse direction substantially perpendicular to the machine direction. 6. The conductive film of claim 5 , wherein the anisotropy is greater than 1.2 and less than 1.5. 7. The conductive film of claim 1 , wherein the plurality of conductive nanostructures are silver nanowires. 8. A conductive film, comprising: a plurality of conductive nanowires, wherein: at least some of the plurality of conductive nanowires are reoriented, the conductive film has a first dimension and a second dimension perpendicular to the first dimension, both the first dimension and the second dimension are perpendicular to a normal of the conductive film, the conductive film has an anisotropy, which is defined as a ratio of a first sheet resistance and a second sheet resistance, the first sheet resistance is measured at a given location along the first dimension and the second sheet resistance is measured at the given location along the second dimension, and the anisotropy is less than 1.5 according to a reorientation of the at least some of the plurality of conductive nanowires. 9. The conductive film of claim 8 , wherein the first dimension is along a machine direction of a substrate travelling in a roll to roll coating, and the second dimension is along a transverse direction substantially perpendicular to the machine direction. 10. The conductive film of claim 9 , wherein the anisotropy is greater than 1.2.