References
- Oregan , B. and Gratzel , M. 1991 . A low cost, high-efficiency solar cell based on dye-sensitized colloidal TiO2 films . Nature , 353 ( 6346 ) : 737 – 740 .
- Tsoukleris , D. S. , Arabatzis , I. M. Chatzivasiloglou , E. 2005 . 2-Ethyl-1-hexanol based screen-printed titania thin films for dye-sensitized solar cells . Sol. Energy , 79 ( 4 ) : 422 – 430 .
- Wang , P. , Zakeeruddin , S. M. Moser , J. E. 2003 . A new ionic liquid electrolyte enhances the conversion efficiency of dye-sensitized solar cells . J. Phys. Chem. B , 107 ( 48 ) : 13280 – 13285 .
- Wei , M. D. , Konishi , Y. Zhou , H. 2006 . Highly efficient dye-sensitized solar cells composed of mesoporous titanium dioxide . J. Mater. Chem. , 16 ( 3 ) : 1287 – 1293 .
- Luo , Y. , Li , D. and Meng , Q. 2009 . Towards optimization of materials for dye-sensitized solar cells . Adv. Mater. , 21 ( 45 ) : 4647 – 4651 .
- Yanagida , S. 2006 . Recent research progress of dye-sensitized solar cells in Japan . Comptes Rendus Chim. , 9 ( 5–6 ) : 597 – 604 .
- Anandan , S. 2007 . Recent improvements and arising challenges in dye-sensitized solar cells . Sol. Energy Mater. Sol. Cells , 91 ( 9 ) : 843 – 846 .
- Opara Kra ovec , U. , Berginc , M. Ho evar , M. 2009 . Unique TiO2 paste for high efficiency dye-sensitized solar cells . Sol. Energy Mater. Sol. Cells , 93 ( 3 ) : 379 – 381 .
- He , J. A. , Mosurkal , R. Samuelson , L. A. 2003 . Dye-sensitized solar cell fabricated by electrostatic layer-by-layer assembly of amphoteric TiO2 nanoparticles . Langmuir , 19 ( 6 ) : 2169 – 2174 .
- Agrios , A. G. , Cesar , I. Comte , P. 2006 . Nanostructured composite films for dye-sensitized solar cells by electrostatic layer-by-layer deposition . Chem. Mater. , 18 ( 23 ) : 5395 – 5397 .
- Kern , R. , Sastrawan , R. Ferber , J. 2002 . Modeling and interpretation of electrical impedance spectra of dye solar cells operated under open-circuit conditions . Electrochim. Acta , 47 ( 26 ) : 4213 – 4225 .
- Dittrich , T. , Lebedev , E. A. and Weidmann , J. 1998 . Electron drift mobility in porous TiO2 (anatase) . Phys. Status Solidi A , 165 : R5 – R6 .
- Kambili , A. , Walker , A. B. Qiu , F. L. 2002 . Electron transport in the dye sensitized nanocrystalline cell . Phys. E , 14 ( 1–2 ) : 203 – 209 .
- Van de Lagemaat , J. and Frank , A. J. 2000 . Effect of the surface-state distribution on electron transport in dye-sensitized TiO2 solar cells: Nonlinear electron-transport kinetics . J. Phys. Chem. B , 104 ( 18 ) : 4292 – 4294 .
- Wang , G. , Xing , W. and Zhuo , S. 2009 . Application of mesoporous carbon to counter electrode for dye-sensitized solar cells [J] . J. Power Sources , 194 ( 1 ) : 568 – 573 .
- Liu , L. and Zhang , Y. 2004 . Multi-wall carbon nanotube as a new infrared detected material [J] . Sens. and Actuators A , 116 ( 3 ) : 394 – 397 .
- Fisher , A. C. , Peter , L. M. Ponomarev , E. A. 2000 . Intensity dependence of the back reaction and transport of electrons in dye-sensitized nanocrystalline TiO2 solar cells . J. Phys. Chem. B , 104 ( 5 ) : 949 – 958 .
- Schlichthörl , G. , Huang , S. Y. Sprague , J. 1997 . Band edge movement and recombination kinetics in dye-sensitized nanocrystalline TiO2 solar cells . J. Phys. Chem. B , 101 ( 41 ) : 8141 – 8155 .