| 1 - 2 |
Dye sensitized and organic solar cells
Smestad GP |
| 3 - 13 |
Facile fabrication of mesoporous TiO2 electrodes for dye solar cells: chemical modification and repetitive coating
Ito S, Kitamura T, Wada Y, Yanagida S |
| 15 - 24 |
Comparative study of nanocrystalline TiO2 photoelectrodes based on characteristics of nanopowder used
Zumeta I, Espinosa R, Ayllon JA, Domenech X, Rodriguez-Clemente R, Vigil E |
| 25 - 35 |
Characterization of a commercial dye-sensitised titania solar cell electrode
Tesfamichael T, Will G, Bell J, Prince K, Dytlewski N |
| 37 - 56 |
Dye-sensitized sputtered titanium oxide films for photovoltaic applications: influence of the O-2/Ar gas flow ratio during the deposition
Gomez MM, Beermann N, Lu J, Olsson E, Hagfeldt A, Niklasson GA, Granqvist CG |
| 57 - 64 |
Dye-sensitization of magnesium-oxide-coated cadmium sulfide
Bandaranayake PKM, Jayaweera PVV, Tennakone K |
| 65 - 73 |
Photoelectrochemical properties of ruthenium dye-sensitized nanocrystalline SnO2 : TiO2 solar cells
Tai WP |
| 75 - 84 |
Simple quantum models of electron injection from a sensitizer molecule to semiconductor nanocrystals
Shtygashev A, Ovchinnikov Y, Shklover V |
| 85 - 105 |
A technique to compare polythiophene solid-state dye sensitized TiO2 solar cells to liquid junction devices
Smestad GP, Spiekermann S, Kowalik J, Grant CD, Schwartzberg AM, Zhang J, Tolbert LM, Moons E |
| 107 - 113 |
A stabilization effect of [60]fullerene in donor-acceptor organic solar cells
Camaioni N, Ridolfi G, Casalbore-Miceli G, Possamai G, Garlaschelli L, Maggini M |
| 115 - 124 |
Sensitization effect by porphyrin in polythiophene/perylene dye two-layer solar cells
Takahashi K, Nakajima I, Imoto K, Yamaguchi T, Komura T, Murata K |
