This search combines search strings from the content search (i.e. "Full Text", "Author", "Title", "Abstract", or "Keywords") with "Article Type" and "Publication Date Range" using the AND operator.
Beilstein J. Nanotechnol. 2017, 8, 2790–2801, doi:10.3762/bjnano.8.278
Figure 1: Properties of the Au nanoparticles (NPs): particle size distribution of Au NPs obtained by using a ...
Figure 2: Cross-section of the PCF 061221 (a) and experimental setup for measuring the propagation spectra in...
Figure 3: Experimental setup for measuring changes of the switching times under an external electric field.
Figure 4: Liquid crystal (LC) cells filled with (a) undoped, (b) 0.5 wt % Au-doped and (c) 1 wt % Au-doped 6C...
Figure 5: Microcapillaries infiltrated with (a) undoped, (b) 0.3 wt % Au-doped, (c) 0.5 wt % Au-doped and (d)...
Figure 6: Propagation spectra for a photonic liquid crystal fiber (PLCF) infiltrated with 6CHBT LC (black) at...
Figure 7: Thermal spectra of propagation in a photonic liquid crystal fiber filled with undoped liquid crysta...
Figure 8: Thermal spectra of propagation in a photonic liquid crystal fiber filled with 0.1 wt % Au-doped liq...
Figure 9: Thermal spectra of propagation in a photonic liquid crystal fiber filled with 0.3 wt % Au-doped liq...
Figure 10: Thermal spectra of propagation in a photonic liquid crystal fiber filled with 0.5 wt % Au-doped liq...
Figure 11: Thermal spectra of propagation in a photonic liquid crystal fiber filled with 1 wt % Au-doped liqui...
Figure 12: Rise time (a,b) and fall time (c,d) for 0.3 wt % Au and 1 wt % Au-doped photonic liquid crystal fib...
Figure 13: Selected oscillograms for undoped (a,b) and 1 wt % Au-doped (c,d) photonic liquid crystal fibers fo...