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Search for "plant wax" in Full Text gives 5 result(s) in Beilstein Journal of Nanotechnology.
Insect attachment on waxy plant surfaces: the effect of pad contamination by different waxes
Beilstein J. Nanotechnol. 2024, 15, 385–395, doi:10.3762/bjnano.15.35
- of insect adhesive pads by plant wax during the contact (contamination hypothesis), (3) absorption of the insect pad secretion by the wax coverage (fluid absorption hypothesis), (4) hydroplaning induced by dissolution of the wax in the pad fluid (wax dissolution hypothesis), and (5) detached wax
- 0.3 and 1 μm rough surfaces, where the range of asperity dimensions corresponded to that of typical plant wax projections [1][14][15][16][17][18][19]. This great reduction in the adhesion force was explained by the strong decrease of the real contact area between the micro/nanorough surface profile
- adhesive pads by the plant wax contributes to the reduction of insect attachment on waxy plant surfaces and to the subsequent long-term reduction of their attachment ability. We measured the traction forces of C. fastuosa male beetles on nine waxy plant surfaces and a reference smooth glass substrate. The
Self-assembly of Eucalyptus gunnii wax tubules and pure ß-diketone on HOPG and glass
Beilstein J. Nanotechnol. 2021, 12, 939–949, doi:10.3762/bjnano.12.70
- that ß-diketone tubules are formed by self-assembly and confirmed that ß-diketone is the shape-determining component for this type of tubules. Keywords: ß-diketone tubules; eucalyptus; plant wax; recrystallization; self-assembly; Introduction The plant cuticle, which is the largest biological
- where platelets were denser, they were connected with each other and formed a structured network (comparable to Figure 2b). ß-Diketone also formed platelets that were similar in form and orientation to those formed from plant wax. However, entire platelets rather than irregular ones were formed. The
Surfactant-induced enhancement of droplet adhesion in superhydrophobic soybean (Glycine max L.) leaves
Beilstein J. Nanotechnol. 2017, 8, 2345–2356, doi:10.3762/bjnano.8.234
- of each sample was reduced under a gentle nitrogen stream at 60 °C to an end volume of 200 µL. The functional groups of acids and alcohols present in the plant wax were transformed to their corresponding trimethilsilyl esters and ethers by derivatization using 20 µL BSTFA (bis-N,N-(trimethylsilyl
Insect attachment on crystalline bioinspired wax surfaces formed by alkanes of varying chain lengths
Beilstein J. Nanotechnol. 2014, 5, 1031–1041, doi:10.3762/bjnano.5.116
- shape, we decided, instead of using native plant wax surfaces, to use bioinspired wax surfaces covered by crystals having a similar morphology. Bioinspired surfaces were made of long-chain hydrocarbons, which can be dominating chemical constituents in plant waxes [22]. Four n-alkanes of varying chain
- similar plate-like shapes. Wax crystals were either of the same dimensions as epicuticular crystals in plants [16][17] or even smaller, because we used alkanes with the same or longer chain lengths, when comparing to plant wax compounds (20 to 40 carbons [22][23]). Microscopy studies of our bioinspired
Biomimetics inspired surfaces for drag reduction and oleophobicity/philicity
Beilstein J. Nanotechnol. 2011, 2, 66–84, doi:10.3762/bjnano.2.9
- the negative replica. To generate several replicas the second step of replication was repeated twenty times for each surface type. Nanostructures were created by self-assembly of plant wax deposited by thermal evaporation [12][13]. Tubule forming wax, which was isolated from a leaf of Nelumbo nucifera
- hydrophobicity using a dynamic AFM method [16][33]. Data on one hydrophilic, one hydrophobic, and one superhydrophobic surface are presented in Table 2. Mica was taken as the hydrophilic surface. Hydrophobic and superhydrophobic surfaces were fabricated by deposition of evaporated plant wax on smooth epoxy
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