Sentence examples for spectra monitoring from inspiring English sources
Figure 3 PLE and PL spectra monitoring of the Yb 3+ emission.
A possible mechanism was proposed that the coordination of PBA and Pd2+ enhance the aggregation of polymer chains, which led to a significant quenching of PBA emission, and this was further confirmed by absorption spectra monitoring and transmission electron microscopy.
In Fig. 6, the excitation spectra monitoring the characteristic emission of Mn2+ ions show a broad band with a peak at ~350 nm, which is the characteristic peak of ZnS absorption.
Photoluminescence excitation (PLE) spectra monitoring at 540 nm and photoluminescence (PL) spectra in the visible region under 450-nm excitation of BaGdF5: 1% Ho3+, x% Yb3+ (0 ≤ x ≤ 20) nanoparticles were investigated, as shown in Figure 2a,b, respectively.
The effectiveness of singlet oxygen generation was measured for all of the grafted surfaces by UVVis spectra monitoring of the adjacent solution phase of 1,3-diphenylisobenzofuran (DPBF), which is well known trapping molecule used in detection of singlet oxygen.
(a) PLE spectra monitoring of the Yb3+: 2 F5/2 → 2 F7/2 emission and (b) PL spectra in the infrared region under excitation of 450 nm (5I8 → 5 G6, 5 F1) of BaGdF5: 1% Ho3+, x% Yb3+ (0 ≤ x ≤ 20) nanoparticles.
Dashed lines: PLE spectra monitored at the maxima of the low energy broad emission band.
Normalised RT PLE spectra monitored at the PL band maximum for the as-grown (line + closed symbols) and annealed (line + open symbols) samples.
Both FTIR and Raman spectra monitored the formation of triazine (i.e. cyanurate) ring in the PT-30 and its nanocomposites with the POSS.
The PLE spectra monitored at 2.7 eV is similar to the one shown in Figure 1a for the non-implanted SL samples suggesting that the optically active defects in the implanted SL are excited via the same paths.
Figure 5 PL spectra excited at 350 nm of ZnS Mn nanoparticlesa without andb g with ZnO shells of different thickness Figure 6 PLE spectra monitored at 580 nm of ZnS Mn nanoparticlesa without andb g with ZnO shells of different thicknesses.
