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Beilstein J. Nanotechnol. 2012, 3, 684–691, doi:10.3762/bjnano.3.78
Figure 1: Increase in zone of inhibition for E. coli and S. aureus with increasing incubation time under dark...
Figure 2: Zone of inhibition observed for different samples of antimicrobial paper under various conditions: ...
Figure 3: (a) Optical image of the zone of inhibition for E. coli; (b) E. coli bacterial cells in the inhibit...
Figure 4: Growth of A. niger in the presence of (a) untreated paper and (b) paper with ZnO nanorods, after 72...
Figure 5: Schematic diagram showing possible hydrogen bonding of the hydroxy groups on the cellulose molecule...
Figure 6: Scanning electron micrographs showing (a) untreated paper handsheet; (b) after seeding with ZnO nan...
Figure 7: (a) Transmission electron microscopy (TEM) image of a single ZnO nanorod (b) Electron diffraction p...
Figure 8: (a) Ink-jet printed text on untreated paper and (b) ink-jet printed text on paper coated with ZnO n...
Beilstein J. Nanotechnol. 2010, 1, 14–20, doi:10.3762/bjnano.1.3
Figure 1: (a) Low-resolution TEM micrograph of ZnO nanoparticles, (b) electron diffraction pattern of the ZnO...
Figure 2: Scanning electron micrograph of (a) ZnO nanoparticle thin film on glass substrate, (b) Sample 1 (0....
Figure 3: Degradation of methylene blue as a function of ln(C/C0) versus the time of exposure to visible ligh...
Figure 4: Increase in width and length resulting from fast crystallization by the use of microwave irradiatio...
Figure 5: A typical scanning electron micrograph showing the ZnO nanorods grown using microwave irradiation i...
Figure 6: Degradation of methylene blue as a function of ln(C/C0) versus the time of exposure to light in the...