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Beilstein J. Nanotechnol. 2014, 5, 1005–1015, doi:10.3762/bjnano.5.114
Figure 1: Friction from plowing of wear particles [16] a) materials of same hardness, b) top material harder than...
Figure 2: SEM images of titania coating on a) Si, b) kapton and c) PDMS. rms roughness measured by AFM and th...
Figure 3: AFM images of titania on Si (I, II), kapton (III, IV) and PDMS (V, VI) before and after scratching ...
Figure 4: Wear volumes (in µm3) resulting from different loads for the titania coatings on Si and kapton.
Figure 5: SEM images of titania coating on a) PC, b) PC and PDMS.
Figure 6: UV–vis spectra for PC with and without titania/PDMS coating. Blue is uncoated PC and green is coate...
Figure 7: AFM images showing results of scratch tests on coated and uncoated PC at the loads indicated. (a) n...
Figure 8: Dependence of scratch resistance on sliding speed. a) AFM image of PC + TiO2 after scratching. b) C...
Figure 9: Applied load vs friction force curves and µ evaluated by lateral force microscopy.
Figure 10: FEA model for 7 nm titania layer for 10 nN force showing z-component of global stress distribution ...
Figure 11: Model used for finite element calculations, for 7 nm titania film thickness. (a) Substrate is seen ...
Beilstein J. Nanotechnol. 2012, 3, 213–220, doi:10.3762/bjnano.3.24
Figure 1: Trichlorosilyl thioesters.
Figure 2: Thickness and contact angles (advancing/receding) for SAMs based on compounds 1b–i.
Figure 3: UV–vis spectra of SAMs of compounds 1a, 2, 3 and 4.
Figure 4: Representative sulfur XPS analyses of the SAMs of compounds 2 (A), 3 (B) and 4 (C).
Figure 5: ATR–FTIR spectra of SAMs of compounds 1a, 2, 3 and 4, as deposited, and after oxidation with UV-A i...