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Beilstein J. Nanotechnol. 2024, 15, 1603–1618, doi:10.3762/bjnano.15.126
Figure 1: Ocimum basilicum. (a) Dry seed and (b) seed after hydration with visible mucilage envelope. The muc...
Figure 2: Structure, composition, function, properties, and exploitation of the seed mucilage envelope. The p...
Figure 3: Salvia hispanica dry seed. (a) The whole seed is covered with mucilaginous cells. (b) The mucilagin...
Figure 4: Mucilage envelope after hydration and critical point drying, visualised in SEM. (a) Ocimum basilicum...
Figure 5: Staining of basic mucilage components. (a) Artemisia annua – pectins stained with ruthenium red. De...
Beilstein J. Nanotechnol. 2016, 7, 1918–1927, doi:10.3762/bjnano.7.183
Figure 1: Mucilage composition. Bright field and fluorescence microscopy images of different staining reactio...
Figure 2: Desiccation dynamics of five individual plantain seeds (solid lines) and a water droplet (dashed li...
Figure 3: Adhesion force (Fad) of mucilaginous seeds measured at different degrees of desiccation after full ...
Figure 4: The ratio of pull-off force (Fad) to contact area (A0) (adhesion stress) for five individual seeds ...
Figure 5: Dynamics of the friction coefficient, µ. The friction coefficient was calculated according to Equation 2 with...
Figure 6: The comparison of the mean values of Fad (adhesion force) and Fad/A0 (adhesion stress) at different...