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Beilstein J. Nanotechnol. 2022, 13, 472–490, doi:10.3762/bjnano.13.40
Figure 1: SEM of hydrothermally grown ZnO nanoparticles (a) and of vertically aligned ZnO nanords (c). UV–vis...
Figure 2: Schematic illustration (a) and SEM (b) of ZnO nanorods obtained by electron-beam lithography and hy...
Figure 3: SEM images of silver nanoparticle–ZnO–polydopamine substrates and the SERS spectra of different rho...
Figure 4: Schematic illustration of the charge transfer mechanism between ZnO, Ag, and the analyte molecule. ...
Figure 5: Recyclability demonstrated for an Au–ZnO substrate. SERS detection (a) of rhodamine 6G and regenera...
Figure 6: Photoluminescence spectra of ZnO–Ag (a) and ZnO–Au (b) shell–core nanoparticles obtained with 325 n...
Figure 7: Schematic illustration of the mechanism for: a) UV emission enhancement of Ag NPs or Au NPs decorat...
Figure 8: Fluorescence emission and kinetic traces characteristic to Cy5 (a and d), rhodamine 6G (b and e), a...
Figure 9: Fluorescence spectra (a) of rhodamine 6G in the presence of Au–ZnO nanostructures and kinetic trace...
Beilstein J. Nanotechnol. 2015, 6, 2498–2503, doi:10.3762/bjnano.6.259
Figure 1: Schematic representation of the concept of a dual electric/optical sensor made of a nanoparticle as...
Figure 2: (a) Optical image of the IDE (Dropsens) electrically connected by conductor wires; (b) Optical imag...
Figure 3: (a) Scheme of the experimental setup for chemiresistive detection; (b) Chemiresistor response: elec...