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Beilstein J. Nanotechnol. 2018, 9, 721–739, doi:10.3762/bjnano.9.67
Figure 1: (a) Adsorption and desorption N2 isotherms of TiO2 at liquid nitrogen temperature. (b) Pore size di...
Scheme 1: Synthetic route and chemical structure of SP1 and SP2 imines.
Figure 2: Temperature evolution of the FTIR spectrum of SP1 imine obtained during heating in two spectral ran...
Figure 3: Temperature evolution of the FT-MIR spectrum of SP2 imine obtained during heating between: (a) 3080...
Figure 4: Intensity of X-ray signal vs diffraction angle, obtained by integration of 2D patterns over azimuth...
Figure 5: Polarizing optical microscopy (POM) images for: (a) SP1 taken during 1st heating (at 27, 58, 72, 75...
Figure 6: Differential scanning calorimetry (DSC) curves of the SP2 and SP2:TiO2 mixtures registered at the 1...
Figure 7: (a) Cyclic voltammograms for SP1 and SP2. CV sweep rate ν = 100 mV/s, 0.1 M Bu4NPF6 in CH2Cl2, (b) ...
Figure 8: Polarizing optical microscopy (POM) textures of SP2:TiO2 mixtures with weight ratios: 3:0 w/w, 3:1 ...
Figure 9: Polarizing optical microscopy (POM) textures of SP2:TiO2 mixtures with weight ratio: 3:0 w/w (at ab...
Figure 10: AFM images of: (a) SP2, SP2:TiO2 (3:1 w/w), SP2:TiO2 (3:2 w/w), SP2:TiO2 (3:3 w/w), and (b) SP1, SP...
Figure 11: Comparison of the FT-MIR spectra of the SP1:TiO2 (3:2 w/w) and SP2:TiO2 (3:2 w/w) mixtures and thei...
Figure 12: Interactions between TiO2 and SP1 or SP2.
Figure 13: Cyclic voltammograms for SP1 and its mixtures with TiO2 and P3HT during reduction (a) and oxidation...
Figure 14: Cyclic voltammograms for TiO2, SP2 and its mixtures with TiO2 in various weight ratios during reduc...
Figure 15: Architecture of the investigated devices along with the energy level diagram of donor and acceptors...
Figure 16: I–V curves of the ITO/TiO2/active layer/Au systems under 88 mW/cm2 illumination: I–IV characteristi...