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Beilstein J. Nanotechnol. 2018, 9, 499–507, doi:10.3762/bjnano.9.48
Figure 1: UV–vis absorption spectra obtained from (a) the colloidal solution without ammonia and (b–i) from s...
Figure 2: Maximum value of absorbance as a function of the NH3 concentration.
Figure 3: TEM images of AgNPs obtained at different NH3 concentrations: (a) without ammonia, and (b–i) with 0...
Figure 4: Size distribution of silver nanoparticles obtained from samples containing different NH3 concentrat...
Figure 5: SAED patterns of the colloidal solutions obtained (a) without ammonia and (b–e) with 1, 10, 100 and...
Figure 6: UV–vis absorption spectra recorded as a function of the reaction time with (a) 200 ppm and (b) 5 pp...
Figure 7: Three distinct regimes of absorbance as a function of the NH3 concentration: (a) very low concentra...
Beilstein J. Nanotechnol. 2015, 6, 2154–2160, doi:10.3762/bjnano.6.221
Figure 1: (a) Syn- and (b) anti-conformations of an ethano-bridged bis-porphyrin.
Figure 2: Chemical structure of the monometallated copper complex of the ethano-bridged bis-porphyrin derivat...
Figure 3: UV–vis solution spectrum (blue line) and reflection spectra of the Cu,H2-Por2 Langmuir film (black ...
Figure 4: (a) The effect of aniline dissolved in the subphase (10−5 M) on the surface pressure vs area per mo...
Figure 5: Normalized reflection spectra of the Cu,H2-Por2 floating films spread on a subphase containing N-me...
Figure 6: UV–vis spectra in the range of 300–800 nm of the Cu,H2-Por2 Langmuir–Schaefer films. The linear dep...
Figure 7: (a) Reflectance variation of Cu,H2-Por2 LS films and (b) SPR angle shift as a function of analyte c...
Figure 8: SPR angle shift as a function of α-methylbenzylamine (filled black circles) and N-methylphenethylam...