To provide a functional device suitable for dye-sensitized solar cells and the like and having a structure suited for thickness reduction, and a method for making the same with good productivity. A dye-sensitized photovoltaic device 10 is constituted by a transparent substrate 1 formed of glass or the like, a transparent conductive layer 2 formed of FTO or the like,
semiconductor electrode layers (negative electrodes) 3 supporting a photosensitizing dye, an
electrolyte layer 4, a film-shaped counter
electrode (positive
electrode) 5, a film-shaped packaging member 6 replacing a counter substrate of the related art, a sealing member 7, power-collecting wiring 8, a wiring protecting layer 9, and the like. As the material of the film-shaped packaging member 6, a material that has high barrier property of suppressing passage of solvents, gasses, water, and the like and excellent resistance to organic solvents and heat is preferred. The device 10 is sealed by joining the transparent substrate 1 to the film-shaped packaging member 6 but a part 11b of a joint 11 is left unjoined before introduction of an electrolytic solution so as to function as an introduction port and joined after the introduction of the electrolytic solution, thereby requiring no end seal.