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Beilstein J. Nanotechnol. 2016, 7, 1822–1828, doi:10.3762/bjnano.7.175
Scheme 1: Reaction scheme for Pt-DEA nanoparticles.
Figure 1: 1 UV–vis spectra in H2O of: K2PtCl4 (red); DEA (green); Pt-DEA (black).
Figure 2: 2 Influence of Pt/DEA molar ratio: DLS results in water.
Figure 3: 3 Influence of Pt/reducing agent molar ration in the formation of Pt-DEA nanoparticles: DLS results...
Figure 4: FTIR spectrum of Pt-DEA (Pt/DEA 1:1) nanoparticles (film).
Figure 5: Far-IR spectrum of Pt-DEA (Pt/DEA 1:1) nanoparticles (Nujol).
Figure 6: FESEM images of Pt-DEA nanoparticles (Pt/DEA 1:0.25).
Figure 7: Sketch of the aggregation phenomenon together with DLS data of Pt-DEA nanoparticles (Pt/DEA 1:0.33)...
Beilstein J. Nanotechnol. 2016, 7, 1654–1661, doi:10.3762/bjnano.7.157
Scheme 1: Synthetic scheme of AgNP-3MPS nanoparticles (synthesis a).
Figure 1: Characterization of AgNP-3MPS nanoparticles in H2O (synthesis a): (a) UV–vis spectrum; (b) DLS meas...
Figure 2: Absorption spectrum of AgNP-3MPS nanoparticles (synthesis b). The SPR exhibits a sharp peak at 404 ...
Figure 3: a) STM morphology measurements of AgNP-3MPS (synthesis b) and b) the height profile of one nanopart...
Figure 4: DLS of the AgNP-3MPS solution (synthesis b). The hydrodynamic diameter was <2RH> = 5 ± 2 nm.
Figure 5: SPR absorption spectroscopy of the AgNP-3MPS solution (synthesis b) taken immediately after the syn...
Figure 6: Absorption spectra of the AgNP-3MPS (synthesis b) solution with 1 ppm ion concentration.
Figure 7: a) Absorption spectra of the AgNP-3MPS system (synthesis b) as a function of the Ni2+ concentration...
Figure 8: Normalized intensity, absorption maximum (λmax) and FWHM as a function of the nickel ion concentrat...
Figure 9: Model of the interaction of AgNP-3MPS and metal ions.