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Beilstein J. Nanotechnol. 2019, 10, 79–94, doi:10.3762/bjnano.10.8
Figure 1: Pathway to fabricate dimple arrays with and without terminal layers. Starting from the left: deposi...
Figure 2: SEM and AFM images of micropatterns from sub-microscale particles. Left: Top view of the dimple mic...
Figure 3: SEM images of micropatterns from microscale particles. Left: Micropattern with a terminal layer. Th...
Figure 4: Representative force–time plots of pull-off force (top row) and friction (bottom row) measurements ...
Figure 5: Pull-off stress (pull-off force divided by the sample area) for flat samples, sub-microscale dimple...
Figure 6: Pull-off stress for flat samples, sub-microscale samples without terminal layer and microscale samp...
Figure 7: Friction stress (friction force divided by the sample area) for flat samples, sub-microscale sample...
Figure 8: Friction stress for flat samples, sub-microscale samples without terminal layer, and microscale sam...
Figure 9: Schematic representation of the customized measuring setup in the configuration of a pull-off force...
Figure 10: Overview of the tested conditions.
Beilstein J. Nanotechnol. 2016, 7, 1377–1396, doi:10.3762/bjnano.7.129
Figure 1: Schematic representation of the three wetting states on an inverse opal, A) impregnated state, B) W...
Figure 2: Surface structure induced contact line pinning in 1D: pinning occurs when θY < θkink (dotted area)....
Figure 3: A) Examples of volume fraction profiles across a liquid/vapour interface found numerically by exact...
Figure 4: Contact angle of liquid on flat solid, θY as function of the interaction parameter of the liquid wi...
Figure 5: A) Adsorption amount Γσ of the liquid component as a function of the volume fraction of liquid in t...
Figure 6: Schematic side view (z,y)-plane and top view (x,y)-plane of an inverse opal with two rows of n = 3....
Figure 7: Liquid condensation in hydrophilic inverse opal (d = 31, s = 88, t = 44, m = 3, n = 1, h = 25 (c = ...
Figure 8: Four examples of droplets on an inverse opal with d = 31, s = 30, c = 0.80, n = 3.5, and χS = −0.3....
Figure 9: Examples of drop characteristics. A) The standard deviation (measured in x-direction) of the positi...
Figure 10: Examples of structural features of advancing and receding drop fronts. A) The fluctuations of the p...
Figure 11: Advancing averaged contact angle and standard deviation as a function of the cavity diameter d (in...
Figure 12: Advancing contact angle and the corresponding fluctuations (measured along the x-direction) indica...
Figure 13: A) Advancing contact angle and the corresponding standard deviation as measure of variation in the ...
Figure 14: A) The advancing contact angle and standard deviation as function of cut-off fraction c for fixed ...