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Beilstein J. Nanotechnol. 2018, 9, 880–889, doi:10.3762/bjnano.9.82
Figure 1: (a,b) SEM micrographs of Ag2O crystallites produced by alkaline sedimentation in excess of PVP, nam...
Figure 2: SEM images of mesoporous silver films after immersion for 40 min in NaBH4 (a) without PVP and (b) w...
Figure 3: Optical absorbance spectra replotted from total reflectance data collected by an integrating sphere...
Figure 4: (a) The principal scheme of SERS experiment and (b) corresponding SERS spectra of rhodamine 6G in 10...
Figure 5: SERS spectra of mildronate in (1) 10−3 M and (2) 10−2 M concentrations collected using mp-Ag/Ag sli...
Figure 6: Micrographs of mp-Ag/Ag slides prepared in the presence of PVP after sintering for 1 h in air at (a...
Beilstein J. Nanotechnol. 2018, 9, 250–261, doi:10.3762/bjnano.9.27
Figure 1: Formation schemes of BN NPs (a) and BN/Ag hybrid nanomaterials via CVD (d) and UV decomposition of ...
Figure 2: HADF-STEM (a, d) images together with the corresponding spatially-resolved EDX maps (b, e) of BN/Ag...
Figure 3: XPS B 1s (a, b), N 1s (c, d), and Ag 3d (e) spectra of BN/Ag hybrid nanomaterials produced via UV d...
Figure 4: TEM micrographs of BN/Ag HNMs: (a) fabricated via UV decomposition of AgNO3, (b) under in situ heat...
Figure 5: The results of catalytic oxidation of methanol (a) and HRTEM image of Ag NP inside a BN/Ag NH produ...
Figure 6: FTIR spectra of BN/Ag HNMs produced via CVD (1, 2) and AgNO3 decomposition (3, 4) before (1, 3) and...
Figure 7: TEM images of BN/Ag hybrid nanomaterials produced via CVD (a, b) and UV decomposition of AgNO3 (c, ...
Figure 8: ICP–MS results of Ag+ ions leaching out of the BN/Ag hybrid nanomaterials produced via AgNO3 decomp...
Figure 9: Antibacterial activity of BN/Ag NH samples against E. coli K-261. Zones of bacterium inhibition aro...