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Beilstein J. Nanotechnol. 2012, 3, 404–414, doi:10.3762/bjnano.3.47
Figure 1: Schematic sketch displaying the growth mechanism of the silver EGNP: (a) the substrates are immobil...
Figure 2: SEM images of silver EGNPs grown from different starting DNA concentrations of 0.16, 0.625, 1.25, 2...
Figure 3: SEM cross-section images of silver EGNP grown from a starting DNA concentration of 25 µM. The react...
Figure 4: Fraction of the substrate surface covered by silver nanoparticles obtained by grey-tone analysis of...
Figure 5: High-resolution TEM image of a silver nanoparticle grown by enzymatic synthesis. The right part sho...
Figure 6: TEM cross section image of a silver nanoparticle on a glass substrate (a), an EDX spectrum recorded...
Figure 7: Experimentally recorded RBS spectrum for silver nanoparticles synthesized on a silicon substrate (r...
Figure 8: Surface coverage of silver (blue triangles) and absolute number of silver atoms (green circles), bo...
Figure 9: (a) A typical SERS spectrum of riboflavin (5 µM) on enzymatically generated silver nanoparticles me...
Beilstein J. Nanotechnol. 2011, 2, 501–508, doi:10.3762/bjnano.2.54
Figure 1: Schematic illustration of gold nanorhombs as plasmonic substrate. (A) The SEM image shows the perio...
Figure 2: Application of the same plasmonic array for fluorescence and SERS readout. (A) Here, the fluorescen...
Figure 3: Mismatch-selective SERS investigation. (A) Transmission minimum at around 700 nm indicates the surf...
Figure 4: Various plasmonic arrays, which were used for a fluorescence comparison study. (A) SEM images of th...
Figure 5: Observation of enhanced fluorescence intensity. (A) Absorption and emission spectrum of the dye-lab...