A transparent conductive film according to the present invention has a transparent conductive layer containing at least two types of metals in a total amount of at least 10% by weight. This film is high in transparency, tonability, and conductivity, has exceptional static prevention and electromagnetic shielding effects, enables adjustment of the tone of transmitted images, and has exceptional durability with respect to saline resistance, acid resistance, oxidation resistance, and ultraviolet resistance. The low-reflectivity transparent conductive film of the present invention is provided with the above-mentioned transparent conductive layer 1, and at least one transparent thin film 2 having a refractive index different from the refractive index of the transparent conductive layer 1 above and/or below this transparent conductive layer. This film can be produced cheaply, is high in transparency, tonability, and conductivity, has exceptional static prevention and electromagnetic shielding effects, has exceptional anti-reflective effects, enables adjustment of the tone of transmitted images, and has exceptional durability with respect to saline resistance, acid resistance, oxidation resistance, and ultraviolet resistance. The display device of the present invention has the above-mentioned low-reflectivity transparent conductive film formed on the display screen thereof. This display device is high in transparency, tonability, and conductivity, has exceptional static prevention and electromagnetic shielding effects, has exceptional anti-reflective effects, enables adjustment of the tone of transmitted images, and has exceptional durability with respect to saline resistance, acid resistance, oxidation resistance, and ultraviolet resistance.