Dye-sensitized solar cells including carbon nanotube yarns

We claim: 1. A dye-sensitized solar cell, comprising: a working electrode comprising seven twisted carbon nanotube yarns; a hybrid sensitizer which comprises: a nanoporous titanium oxide layer coated on the seven twisted carbon nanotube yarns, a microporous titanium oxide layer coated onto the nanoporous titanium oxide layer, and dye particles and quantum dots disposed in the pores of the microporous titanium oxide layer, wherein the dye particles comprise N719 dye, and the quantum dots comprise CdS and CdSe; a conducting electrode comprising one carbon nanotube yarn disposed about the hybrid sensitizer or three twisted carbon nanotube yarns disposed about the hybrid sensitizer; and a solid state electrolyte disposed about the hybrid sensitizer. 2. The dye-sensitized solar cell of claim 1 , wherein the solid state electrolyte comprises iodide solid electrolyte. 3. The dye-sensitized solar cell of claim 1 , wherein the seven twisted carbon nanotube yarns form a braided structure. 4. The dye-sensitized solar cell of claim 1 , wherein the dye-sensitized solar cell is in the form of flexible wire. 5. A woven fabric which comprises two or more of the dye-sensitized solar cells of claim 1 . 6. A method comprising: providing the dye-sensitized solar cell of claim 1 incorporated into a structure; and using the dye-sensitized solar cell to detect a status of the structure, wherein using the dye-sensitized solar cell comprises triboluminescent-based monitoring of the health of the structure. 7. A method comprising: providing a photovoltaic cell which comprises the dye-sensitized solar cell of claim 1 ; and using the dye-sensitized solar cell to harvest energy. 8. A flexible, wire-shaped dye-sensitized solar cell, comprising: a working electrode comprising seven twisted carbon nanotube yarns; a hybrid sensitizer, comprising: a porous metal oxide layer coated on the seven twisted carbon nanotube yarns, and dye particles and quantum dots located in or on the porous metal oxide layer, wherein the dye particles comprise N719 dye, and the quantum dots comprise CdS and CdSe; a conducting electrode comprising one carbon nanotube yarn disposed about the hybrid sensitizer or three twisted carbon nanotube yarns disposed about the hybrid sensitizer; and a solid state electrolyte disposed about the hybrid sensitizer. 9. The dye-sensitized solar cell of claim 8 , wherein the seven twisted carbon nanotube yarns are in a braided structure form. 10. The flexible, wire-shaped dye-sensitized solar cell of claim 8 , wherein the solid state electrolyte comprises iodide solid electrolyte. 11. A woven fabric which comprises two or more of the flexible, wire-shaped dye-sensitized solar cells of claim 8 . 12. A method of manufacturing a dye-sensitized solar cell, comprising: twisting seven carbon nanotube yarns to form a working electrode; coating a layer of nanoporous titanium oxide on the seven twisted carbon nanotube yarns; coating a layer of microporous titanium oxide onto the nanoporous titanium oxide layer; positioning dye particles and quantum dots in the pores of the microporous titanium oxide layer, wherein the quantum dots comprise CdS and CdSe and the dye particles comprise N719 dye; wherein the layer of nanoporous titanium oxide, the layer of microporous titanium oxide, the dye particles, and the quantum dots collectively form a hybrid sensitizer; providing a conducting electrode comprising one carbon nanotube yarn disposed about the hybrid sensitizer or three twisted carbon nanotube yarns disposed about the hybrid sensitizer; and providing a solid state electrolyte about the hybrid sensitizer. 13. The method of claim 12 , wherein the solid state electrolyte comprises iodide solid electrolyte.