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Beilstein J. Nanotechnol. 2021, 12, 440–461, doi:10.3762/bjnano.12.36
Figure 1: Scanning electron microscope (SEM) with different morphologies: (A) bipyramidal, (B) nanowires, (C)...
Figure 2: Geometric shapes of nanocrystals with their predominant facets in each structure and the ratio of {...
Figure 3: (a) Ag+ release after one day of reaction in the presence of oxygen. The dotted arrow indicates dec...
Figure 4: (a) Comparative TEM micrographs of spherical AgNPs before (left) and after (right) light irradiatio...
Figure 5: (A) Propagation of surface plasmon resonance in spherical AgNPs during their interaction with the e...
Figure 6: Mechanism of action of AgNPs in the bacterial cell.
Figure 7: Examination of AgNP uptake by macrophages. (A) Control cells and (B) cells treated with 25 µg/mL of...
Figure 8: Primary and secondary growth steps in the formation of AgNPs through the citrate ion reduction tech...
Figure 9: Graph depicting the variation in the reduction reaction time with respect to the [Ag+]/[citrate] ra...
Figure 10: Schematic illustrating the reduction of silver ions, pre-nucleation, nucleation and growth steps in...
Figure 11: Calculated UV–vis extinction (black), absorption (red), and scattering (blue) spectra of silver nan...
Figure 12: Experiment investigating the stability of AgNPs. (A) TEM micrograph after sample drying. (B) In sit...
Figure 13: Schematic representing the differences between Rayleigh (left) and Mie (right) light scattering the...