The doctor blade method was used to spread the TiO2 paste on the compact layer in order to form the mesoporous network of TiO2. The newly deposited layer was also sintered selleck kinase inhibitor at 450°C for 30 min in order to remove organic residues and moisture

for obtaining a mesoporous TiO2 layer. Fabrication of CdS and CdSe IWR 1 QD-sensitized electrodes Both CdS and CdSe QDs were prepared using the successive ionic layer adsorption and reaction (SILAR) deposition method. To fabricate CdS QDs, the TiO2-coated electrode was successively dipped into 0.1 M Cd(NO3)2 ethanolic solution for 5 min and into 0.1 M Na2S methanol solution for another 5 min. The electrode was rinsed with alcohol and allowed to dry in between the dipping process. This two-step dipping is considered as 1 SILAR cycle. Four SILAR cycles were used to prepare a CdS QD-sensitized TiO2 electrode. For CdSe QDs, preparation process was performed in a glove box filled with argon gas [18]. TiO2-coated electrode was first dipped into 0.03 M Cd(NO3)2 ethanolic solution for 30 s followed by ethanol rinsing and drying. Then, it was dipped into Se2- solution for 30 s followed by ethanol rinsing and drying. Se2- solution was prepared by reacting 0.03 M SeO2 ethanolic solution with 0.06 M NaBH4. Stattic clinical trial The mixture was stirred for about an hour before it was used for SILAR dipping process. Seven SILAR cycles were

used to prepare a CdSe QD-sensitized TiO2 electrode. Preparation of CEs Five types of CE materials were used:

platinum, graphite, carbon, Cu2S and RGO. Platinum layer was prepared by spin coating a thin layer of commercial platinum solution (Plastisol from Solaronix) on the conducting glass surface and sintering at 450°C for 30 min. Graphite layer was obtained by rubbing pencil lead on the conducting glass surface. To obtain carbon layer, the conducting glass was placed over a candle flame for a few seconds so that black carbon soot formed readily on the surface. Cu2S electrode was prepared according to the procedure given in the literature [19]. In this procedure, a brass electrode was immersed in hydrochloric acid at 70°C for 5 min, and then, the treated brass was dipped into polysulfide aqueous solution containing 1 M Na2S and 1 M S for 10 min. Upon the solution treatment, Cu2S would Interleukin-3 receptor be formed on the brass surface as a thin black layer. To prepare counter electrode with RGO, RGO powder (Timesnano) was mixed in the N-methyl-2-pyrrolidone (NMP) solution with 10 wt.% of polyvinylidene difluoride (PVDF). The suspension was then cast on the conducting glass and allowed to dry at 70°C. Assembly of QDSSCs Solar cell was fabricated by clamping the QD-sensitized TiO2 electrode with a selected CE. Parafilm (130 μm thickness) was used as a spacer between the two electrodes. The spacer also prevented the liquid electrolyte from leaking.