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Beilstein J. Nanotechnol. 2014, 5, 1235–1244, doi:10.3762/bjnano.5.137
Figure 1: The crystal structures of (a) CISe, (b) CIGSe and (c) CZTSe.
Figure 2: TEM Micrographs of (a) CISe nanocrystals, (b) CIGSe nanocrystals and (c) CZTSe nanocrystals. The in...
Figure 3: X-ray diffraction pattern of (A) pristine and (B) light-soaked, optical band gap determination base...
Figure 4: UV-lamp exposed photographs of polymer P3HT, P3HT:CISe, P3HT:CIGSe and P3HT:CZTSe nanocomposites.
Figure 5: Emission intensity profiles of polymer:chalcopyrite nanocomposites dispersed in toluene (λmax = 580...
Figure 6: Emission intensity profile of polymer:chalcopyrite nanocomposites as a function of the concentratio...
Figure 7: Stern–Volmer plots of (a–c) P3HT:CISe, P3HT:CIGSe, and P3HT:CZTSe nanocomposites.
Figure 8: Modified Stern–Volmer plots of (a) P3HT:CISe, (b) P3HT:CIGSe and (c) P3HT:CZTSe nanocomposites.
Figure 9: DLS correlation coefficient vs time for (a) P3HT:CISe (b) P3HT:CIGSe and (c) P3HT:CZTSe nanocomposi...
Figure 10: Raman Spectra of (a) P3HT; (b) P3HT:CISe, (c) P3HT:CIGSe, and (d) P3HT:CZTSe nanocomposites.
Figure 11: Schematic of the charge generation and separation mechanism. Generation of excitons (1), charge sep...