The present invention relates to a dye-sensitized solar cell using a braided wire. The dye-sensitized solar cell forms a braided wire material by including a counter electrode metal wire in which a counter electrode is formed on the outer surface; an insulation body wire which has the counter electrode metal wire as a core and is woven to the outer side of the core; and an optical electrode metal wire which is woven to the outer side of the insulation body wire and forms an optical electrode on the outer surface. The technical point of the present invention is the dye-sensitized solar cell using the braided wire which is formed by being sealed using a transparent sealing member in which electrolytes are filled inside. Therefore, a mechanically excellent and soft dye-sensitized solar cell is formed without using a transparent conducting oxide (TCO) substrate. The dye-sensitized solar cell is not interrupted by the size and shape due to the braided wire material base, can be thermally processed based on metal and glass fiber wires, and can be recycled.
