Current trend in fabrication of complex morphologically tunable superhydrophobic nano scale surfaces

Abdulhussein, Ali T.; Kannarpady, Ganesh K.; Wright, Andrew B.; Ghosh, Anindya; Biris, Alexandru S.

doi:10.1016/j.apsusc.2016.04.186

Cited by 59 publications

(21 citation statements)

References 146 publications

(143 reference statements)

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“…2d, the average particle size of the FAS modified silica particles was approximately 100 nm to 200 nm. Liu et al (2015) and Ali et al (2016) obtained similar conclusions that the coating surface exhibited a rough, wrinkled, hill-like morphology similar to the microstructure of the lotus leaf (rough micro-scale papillae), which is promising for superhydrophobicity.…”

Section: Sem Measurementmentioning

confidence: 62%

Novel Medium-density Fibreboard Produced by Ultrasonic-assisted Pulp with Superhydrophobic and Flame-Resistant Properties

Zhang

Xing

et al. 2017

BioResources

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A novel medium-density fibreboard produced by an ultrasonic-assisted wheat straw pulp (UWP) was obtained without adhesives. It was then coated with a superhydrophobic sol solution integrated with an in vitro addition of two fire retardants (polyhedral methyl-silsesquioxane and ammonium polyphosphate) during the process of sol-gel reaction involving the two silane precursors tetraethyl orthosilicate (TEOS) and tridecafluorooctyltriethoxysilane (FAS). The coated UWP medium-density fibreboard (UPB) had good strength properties and possessed excellent hydrophobicity (water contact angle (WCA) above 150°), and flameresistant properties (limiting oxygen index (LOI) improved by 5% compared with the original sample with a LOI of 18%). Meanwhile, the fibreboard also exhibited outstanding anti-permeability towards water (kept constant WCA for more than 1 h).

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Section: Sem Measurementmentioning

confidence: 62%

Novel Medium-density Fibreboard Produced by Ultrasonic-assisted Pulp with Superhydrophobic and Flame-Resistant Properties

Zhang

Xing

et al. 2017

BioResources

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“…2a clearly shows the morphology of taro leaf surface, and the honeycomb units and ellipsoids were covered with rectangular plates nanostructure that were vertically set on edge. The superhydrophobicity of the taro leaf had been widely attributed to the arrangement of protuberances microstructure and plates nanostructure [24]. Figure 2b shows the SEM image of the PDMS stamps, and microgrooves were observed on the stamp surface random, but proportionally spaced, which completely reversed with the honeycomb units on the taro leaves surface.…”

Section: Characterizationsmentioning

confidence: 97%

Biomimetic taro leaf-like films decorated on wood surfaces using soft lithography for superparamagnetic and superhydrophobic performance

et al. 2017

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The surfaces of plants represent multifunctional interfaces between the organisms and the environment. In this paper, biomimetic taro leaf-like structures with superparamagnetic and superhydrophobic performances were exactly copied on the wood surface through the soft lithography to improve the wood properties. Fe 3 O 4 nanoparticles were mixed into poly(dimethylsiloxane) PDMS suspensions to obtain Fe 3 O 4 /PDMS suspensions that commonly endow coats magnetic and microwave absorption properties, which were then cast onto the wood surface and packaged by PDMS stamps replicated from fresh taro leaves. Fe 3 O 4 /PDMS films, which coexisted superhydrophobic surface and superparamagnetic property, were created on the wood surface after the being dried and stamps were peeled off. The as-prepared wood surface exhibited unique taro leaf-like micro-and nanostructures, microwave absorption, superparamagnetism performances with maximum saturation magnetization (M s ) of 22.9 emu g -1 and superior static superhydrophobicity with a water contact angle of 152°± 2°. This research may provide a feasible pathway for constructing naturally biomorphic structures on the wood surface with tailored functions.

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“…Известно, что в ряде работ системы с высоки-ми значениями угла смачивания получены из рас-творов с использованием гидрофобизированного кремнезема [10,11]. Это обусловлено подходящим для достижения состояния Касси размером частиц этого материала и относительной лёгкостью введе-ния его в полимерные матрицы.…”

Section: хімічні наукиunclassified

Surface structure of silica-based superhydrophobic coatings

Клишин¹,

Миронюк²,

Дудко³

et al. 2016

ScienceRise

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Current trend in fabrication of complex morphologically tunable superhydrophobic nano scale surfaces

Cited by 59 publications

References 146 publications

Novel Medium-density Fibreboard Produced by Ultrasonic-assisted Pulp with Superhydrophobic and Flame-Resistant Properties

Novel Medium-density Fibreboard Produced by Ultrasonic-assisted Pulp with Superhydrophobic and Flame-Resistant Properties

Biomimetic taro leaf-like films decorated on wood surfaces using soft lithography for superparamagnetic and superhydrophobic performance

Surface structure of silica-based superhydrophobic coatings

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