2022
DOI: 10.1002/admi.202201847
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Biomimetic Superhydrophobic Materials Construct from Binary Structure: A Review on Design, Properties, and Applications

Abstract: Contact angle [θ] Wettability

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Cited by 14 publications
(9 citation statements)
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References 237 publications
(465 reference statements)
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“…■ EXPERIMENTAL SECTION General Information. 1 H (400 MHz), 13 C (100 MHz), and 19 F NMR (376 MHz) spectra were recorded on a JEOL JNM-400 spectrometer. Chemical shifts are reported in parts per million from the signals of tetramethylsilane (TMS) for 1 H NMR (TMS: 0.00 ppm, s), solvent peak for 13 C NMR (CHCl 3 : 77.16 ppm), and hexafluorobenzene (C 6 F 6 ) for 19 F NMR (C 6 F 6 : −164.9 ppm) in CDCl 3 .…”
Section: ■ Introductionmentioning
confidence: 99%
See 1 more Smart Citation
“…■ EXPERIMENTAL SECTION General Information. 1 H (400 MHz), 13 C (100 MHz), and 19 F NMR (376 MHz) spectra were recorded on a JEOL JNM-400 spectrometer. Chemical shifts are reported in parts per million from the signals of tetramethylsilane (TMS) for 1 H NMR (TMS: 0.00 ppm, s), solvent peak for 13 C NMR (CHCl 3 : 77.16 ppm), and hexafluorobenzene (C 6 F 6 ) for 19 F NMR (C 6 F 6 : −164.9 ppm) in CDCl 3 .…”
Section: ■ Introductionmentioning
confidence: 99%
“…1 H (400 MHz), 13 C (100 MHz), and 19 F NMR (376 MHz) spectra were recorded on a JEOL JNM-400 spectrometer. Chemical shifts are reported in parts per million from the signals of tetramethylsilane (TMS) for 1 H NMR (TMS: 0.00 ppm, s), solvent peak for 13 C NMR (CHCl 3 : 77.16 ppm), and hexafluorobenzene (C 6 F 6 ) for 19 F NMR (C 6 F 6 : −164.9 ppm) in CDCl 3 . In the case of molecules with perfluorocyclopentene rings, the 13 C NMR measurement by the 1 H decoupling method lacks signals from the fluorine-bonded carbon atoms.…”
Section: ■ Introductionmentioning
confidence: 99%
“…There are several theoretical, experimental and industrial groups focusing on mimicking bio-inspired artificial superhydrophobic materials offering exciting potentials in self-cleaning, anti-icing, anti-fouling, fluid transport, water collection, biological fluid-repellent surfaces and oil-water separation applications. [5,6,8,[10][11][12][13][14][15][16][17][18][19] In order to construct a mechanically and chemically robust superhydrophobic substrates, it is important to protect hierarchical roughness and low surface energy coating with respect to external stimuli. The impact of water droplet has profound effect on the aspect ratio, roughness and porosity of the superhydrophobic materials.…”
Section: Introductionmentioning
confidence: 99%
“…[35,56] Current technologies are developed to achieve either slippery or sticky behavior by modifying the fabrication techniques and/or material in use, often involving a combination of top-down and bottom-up manufacturing methods. [42,54,[57][58][59][60] Here, we investigate the efficacy of wax crystallization approaches for the fabrication of hydrophobic surfaces exhibiting tuneable slippery or sticky behaviors by controlling the micro/nano-scale crystal structures. We test the idea of organising the nanoscale crystals of a given wax into self-assemblies of different micromorphologies to achieve diverse wetting regimes in chemically identical materials.…”
Section: Introductionmentioning
confidence: 99%