Ink Composition for Forming Transparent Conductive Film, Transparent Conductive Film, Method for Producing Transparent Electrode, and Image Display Device

1 . An ink composition for forming a transparent conductive film used for transparent electrodes having a distance between the electrodes of 20 μm or more, the ink composition containing: metal nanowires; a photosensitive material; and a solvent, wherein the metal nanowires have an average length of 1.5 times or less the distance between the electrodes. 2 . The ink composition for forming the transparent conductive film of claim 1 , wherein the average length of the metal nanowires is in the range from 5 μm to 50 μm. 3 . An ink composition for forming a transparent conductive film used for transparent electrodes having a distance between the electrodes of less than 20 μm, the ink composition containing: metal nanowires; a photosensitive material; and a solvent, wherein the metal nanowires have an average length of 5 μm or more and 0.5 times or less the distance between the electrodes. 4 . The ink composition for forming the transparent conductive film of claim 1 , wherein the photosensitive material includes a compound containing at least one of an azide group and a diazirine group. 5 . The ink composition for forming the transparent conductive film of claim 1 , wherein 60% or less of a total number of the metal nanowires comprise metal nanowires having lengths greater than 0.5 times the distance between the electrodes. 6 . The ink composition for forming the transparent conductive film of claim 1 , wherein 50% or less of a total number of the metal nanowires comprise metal nanowires having lengths of 5 μm or less. 7 . The ink composition for forming the transparent conductive film of claim 1 , wherein the metal nanowires have an average diameter in the range from 1 nm to 500 nm. 8 . The ink composition for forming the transparent conductive film of claim 1 , wherein the metal nanowires have an aspect ratio (average length/average diameter) in the range from 10 to 50000. 9 . The ink composition for forming the transparent conductive film of claim 1 , wherein the metal nanowires comprise at least one metal selected from the group consisting of Ag, Au, Ni, Cu, Pd, Pt, Rh, Ir, Ru, Os, Fe, Co, and Sn. 10 . An ink composition for forming a transparent conductive film used for transparent electrodes, the ink composition containing: metal nanowires; a photosensitive material; and a solvent, wherein the photosensitive material includes a compound containing at least one of an azide group and a diazirine group. 11 . The ink composition for forming the transparent conductive film of claim 10 , wherein the photosensitive material includes a polymer containing, in at least one of a main chain and a side chain thereof, at least one of the azide group and the diazirine group. 12 . The ink composition for forming the transparent conductive film of claim 11 , wherein the polymer containing, in at least one of the main chain and the side chain thereof, at least one of the azide group and the diazirine group is of the following general formula (I): wherein, X represents one or more photosensitive groups containing at least one of the azide group and the diazirine group; R represents one of a chain or cyclic alkylene group and a derivative thereof and may contain, in at least one of a main chain and a side chain thereof, one or more of an unsaturated bond, an ether bond, a carbonyl bond, an ester bond, an amide bond, an urethane bond, a sulfide bond, an aromatic ring, a heterocyclic ring, an amino group, and a quaternary ammonium base; R′ represents one of a chain or cyclic alkyl group and a derivative thereof and may contain, in at least one of a main chain and a side chain thereof, one or more of an unsaturated bond, an ether bond, a carbonyl bond, an ester bond, an amide bond, an urethane bond, a sulfide bond, an aromatic ring, a heterocyclic ring, an amino group, and a quaternary ammonium base; and 1 is 1 or more, m is 1 or more, and n is 0 or more. 13 . The ink composition for forming the transparent conductive film of claim 10 , wherein the photosensitive material contains a binder resin, and a crosslinker containing at least one of the azide group and the diazirine group. 14 . The ink composition for forming the transparent conductive film of claim 13 , wherein the binder resin comprises a water-soluble polymer. 15 . The ink composition for forming the transparent conductive film of claim 1 , further containing: a colored compound. 16 . An ink composition for forming a transparent conductive film used for transparent electrodes having a distance between the electrodes of 20 μm or more, the ink composition containing: metal nanowires; a photosensitive material; and a solvent, wherein the metal nanowires have an average length of 1.5 times or less the distance between the electrodes, the photosensitive material includes a polymer containing, in at least one of a main chain and a side chain thereof, at least one of an azide group and a diazirine group, and the polymer containing, in at least one of the main chain and the side chain thereof, at least one of the azide group and the diazirine group is of the following general formula (I): wherein, X represents one or more photosensitive groups containing at least one of the azide group and the diazirine group; R represents one of a chain or cyclic alkylene group and a derivative thereof and may contain, in at least one of a main chain and a side chain thereof, one or more of an unsaturated bond, an ether bond, a carbonyl bond, an ester bond, an amide bond, an urethane bond, a sulfide bond, an aromatic ring, a heterocyclic ring, an amino group, and a quaternary ammonium base; R′ represents one of a chain or cyclic alkyl group and a derivative thereof and may contain, in at least one of a main chain and a side chain thereof, one or more of an unsaturated bond, an ether bond, a carbonyl bond, an ester bond, an amide bond, an urethane bond, a sulfide bond, an aromatic ring, a heterocyclic ring, an amino group, and a quaternary ammonium base; and 1 is 1 or more, m is 1 or more, and n is 0 or more. 17 . The ink composition for forming the transparent conductive film of claim 16 , further containing: a colored compound. 18 . A transparent conductive film, comprising a cured product of the ink composition for forming the transparent conductive film of claim 15 , wherein the colored compound is substantially adsorbed to the metal nanowires. 19 . The transparent conductive film of claim 18 , wherein a content of the colored compound unadsorbed to the metal nanowires is in the range from 0.05 to 9.9 weight % of the transparent conductive film. 20 . A method for producing transparent electrodes having a predetermined distance between the electrodes, the method comprising: forming, on a substrate, a film of the ink composition for forming the transparent conductive film of claim 1 ; pattern exposing the formed film; and developing the pattern exposed film. 21 . The method for producing the transparent electrodes of claim 20 , further comprising: calendering the developed film. 22 . An image display device, comprising: an image display panel; and electrodes formed on a display surface side of the image display panel and by using a transparent conductive film, wherein the transparent conductive film comprises a cured product of the in