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Beilstein J. Nanotechnol. 2016, 7, 1662–1673, doi:10.3762/bjnano.7.158
Figure 1: Raman spectra A–D of thin layers grown by spraying solutions with Sb/S precursor ratios of 1:9 to 1...
Figure 2: SEM images of Sb2S3 crystalline flakes grown by spraying solutions with a precursor ratio of 1:6 on...
Figure 3: Cross-sectional SEM image of the glass/ITO/TiO2/Sb2S3 structure, the topmost Sb2S3 layer consists o...
Figure 4: A: Absorption coefficient α of Sb2S3 layers of nanoparticles grown by ultrasonic CSP with 3–9 depos...
Figure 5: Tauc plot of the optical transmittance spectra of the glass/ITO/TiO2/Sb2S3 layer stack, using α fro...
Figure 6: A: Cross-sectional SEM image of the glass/ITO/TiO2/Sb2S3/P3HT/Au solar cell, the 5-cycle Sb2S3 laye...
Figure 7: External quantum efficiency of glass/ITO/TiO2/Sb2S3/P3HT/Au solar cells. Sb2S3 layer was grown by s...
Beilstein J. Nanotechnol. 2014, 5, 2398–2402, doi:10.3762/bjnano.5.249
Figure 1: Sketch of the cross-section of the Au-NP/ZnO/In2S3/CuInS2 solar cell (A), and of the ZnO/In2S3/CuInS...
Figure 2: External quantum efficiency (EQE) of a plasmonic solar cell employing Au-NPs on top of an ITO layer...
Figure 3: Left: External quantum efficiency (EQE) of ITO/ZnO/In2S3/CuInS2/Au-NP solar cells (red line) and EQ...
Figure 4: Spectra of the relative increase in ∆EQE for the ITO/ZnO/In2S3/CuInS2/Au-NP solar cells when compar...
Figure 5: SEM image and EBIC image of the cross-section of the ZnO/In2S3/CuInS2/Au-NP solar cell prepared by ...