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Beilstein J. Nanotechnol. 2017, 8, 446–451, doi:10.3762/bjnano.8.48
Figure 1: Cross-sectional (a) and top (b) view of densely packed ZnO NCs grown at 90 °C for 180 min (scale ba...
Figure 2: High-resolution core-level Zn 2p and O 1s XPS spectra of pristine (A) ZnO NCs and ZnO NCs after 25 ...
Figure 3: The optical absorptance spectra of as-grown ZnO nanocolumns and NCs treated in H-plasma for 1, 5, 1...
Figure 4: The optical absorptance spectra of as-grown ZnO nanocolumns and NCs treated in O-plasma for 1, 5, 1...
Beilstein J. Nanotechnol. 2015, 6, 617–631, doi:10.3762/bjnano.6.63
Figure 1: High resolution Ti 2p (left) and O 1s (right) XPS spectra of pristine titanium surfaces (A) and sur...
Figure 2: FTIR spectra of starting neridronate (A), APTES (B) and dopamine (C) organic moieties in their nati...
Figure 3: High resolution C 1s XPS spectra of neridronate (A), APTES siloxane (B) and PDA (C) films on the su...
Figure 4: AFM images of the neat, flat titanium surface (RRMS = 0.5 ± 0.3 nm) (A), and confluent anchor layer...
Figure 5: Differential IRRAS spectra of free alginate adsorbed onto a flat titanium surface (A) and covalentl...
Figure 6: High resolution C 1s XPS spectra of alginate coatings on neridronate (A), APTES siloxane (B) and PD...
Figure 7: Ellipsometric thickness and water contact angle evolution of ALG bound to neridronate, APTES siloxa...
Figure 8: Evolution of IRRAS spectra of ALG bound to neridronate (A), to APTES siloxane (B) and to PDA (C) up...
Scheme 1: Performed surface treatments and subsequent reactions for the activation and modification of titani...