The suspension was ultrasonicated and then

The suspension was ultrasonicated and then centrifuged to remove selleck kinase inhibitor the excess PbCl2. Ethanol was added to the retained supernatant to precipitate the quantum dots. The suspension was centrifuged, the supernatant was discarded, the precipitate was redispersed in toluene, and ethanol was added. The PbS CQDs containing OA ligands were isolated by centrifugation. Treatment with a methanol solution of CTAB was used to exchange OA ligands for the Br- ones in the PbS CQD solid films using layer-by-layer

spin coating. A three-step spin coating cycle was used: (1) 50 mg/mL of the PbS CQD solution was spin-coated, (2) 0.5 mL of the CTAB methanol solution was coated onto the PbS CQD solid films, and (3) the films were washed with methanol. Experiments were conducted at room temperature in air and without annealing during the ligand exchange process. This spin coating cycle was repeated seven times. OA-treated PbS CQD solid films, on the other hand, were made by simply spin coating PbS CQDs seven times, without using the other steps.

Solution-processed ZnO thin films were spin-coated onto an indium tin oxide (ITO) substrate and annealed at 500°C for 4 h. The two types of PbS CQD solid films were then deposited. Chlorobenzene dispersions of P3HT and PCBM were Batimastat concentration spin-coated onto PbS CQD solid films in an argon-filled glove box and annealed at 120°C for 10 min. Layers of MoO3 (3 nm) and Au (100 nm) were deposited onto the active layer by thermal evaporation. Characterizations The PbS CQDs were characterized by high-resolution transmission electron microscopy (HRTEM; Titan, FEI Co., Hillsboro, OR, USA). Current density-voltage characteristics were measured using an electrochemical analyzer (IviumStat, Ivium Technologies,

Aspartate Eindhoven, The Netherlands). An AM 1.5 solar simulator (Sun 2000, ABET Technologies, Milford, CT, USA) at 100 mW/cm2 intensity was used for illumination measurements. Absorption spectra were measured with a spectrophotometer (Cary 5G, Varian Inc., Palo Alto, CA, USA). This instrument was equipped with two light sources, i.e., a deuterium arc lamp and a quartz SBI-0206965 price tungsten halogen lamp. X-ray photoelectron spectroscopy (XPS) spectra were measured using a commercial spectrometer (K-alpha, Thermo VG, Thermo Fisher Scientific, Waltham, MA, USA). Results and discussion Our synthesis was based on that of Hyeon [12]. The particle size and shape of our synthesized PbS CQDs were determined by HRTEM (Figure 1). The images revealed that the PbS CQDs were spherical, with an average size of about 5 nm. These PbS CQDs were passivated with oleylamine to prevent growth and oxidation in the colloidal solution. Figure 1 HRTEM image of PbS CQDs. The sample was applied to a TEM grid by evaporation at room temperature of a hexane solution. We used a solid-state treatment with CTAB for atomic ligand passivation [5]. This procedure exchanges OA for Br atomic ligands within a PbS CQD solid film.

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