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Beilstein J. Nanotechnol. 2010, 1, 94–100, doi:10.3762/bjnano.1.11
Figure 1: Structure of CTA.
Figure 2: a) Absorption intensity of the first exciton peak (619 nm), b) luminescence intensity of the emissi...
Figure 3: a) Absorption spectra and b) PL spectra of NRs (aspect ratio 6) in chloroform solution for differen...
Figure 4: a) TEM image of CdSe/CdS nanorods (aspect ratio 6) b) in the NR/P(LMA-co-EGDM) composite and c) a p...
Figure 5: a) TEM image showing bullet shaped CdSe/CdS nanoparticles (aspect ratio 3), b) the NRs in the P(LMA-...
Figure 6: a) Absorption spectra and b) PL spectra of P(LMA-co-EGDM) nanocomposites containing NRs (aspect rat...
Figure 7: Absorption and PL spectra of NR/P(LMA-co-EGDM) composites containing 0.05 wt % NRs (aspect ratio 6)...
Figure 8: Photograph showing the high transparency of a 5 mm thick 0.05 wt % NR/P(LMA-co-EGDM) composite.
Figure 9: Photograph of CTA nanocomposite layers on glass substrates containing NRs (aspect ratio 6) illumina...
Figure 10: a) Absorption spectra and b) PL spectra of CTA nanocomposites containing NRs (aspect ratio 6) for d...
Figure 11: Decay curves of P(LMA-co-EGDM) and CTA nanocomposites containig aspect ratio 6 NRs.
Figure 12: a) TEM images of a CTA nanocomposite layer with 2 wt % NRs (aspect ratio 6) and b) agglomerates wit...