Add to ORKG336-343A novel modified admicellar polymerization (ADPM) technique has been proposed for achieving hydrophobicity on cotton fabrics by synthesizing an ultrathin layer of polystyrene on them. The effect of ethanol and methanol on styrene ADPM has been investigated and polymerization time is halved by using methanol at a concentration as low as 0.3 M. Evaluation of the hydrophobic effect is performed through drop tests, contact angle measurements and durability tests. Contact angle of water is as high as ~ 130° and water droplets are repelled for more than 30 min. ADPM delivers hydrophobicity which is comparable with commercially available water repellents based on stearic acid melamine resins. Characterization through SEM confirms the format...
We report a biomimetic procedure to prep. superhydrophobic cotton textiles. By in situ introducing s...
In this article, we report the modification of poly(styrene-alt-maleic anhydride) (PSMA) with monofu...
We have recently developed a novel and simple approach based on aqueous solutions of block copolymer...
A novel modified admicellar polymerization (ADPM) technique has been proposed for achieving hydropho...
An effect of a hydrophobic composition based on polymers on the hydrophobicity and performance prope...
Superhydrophobic surfaces were created on hydrophilic cotton fabrics by a simple wet chemical proces...
The surface of cotton textile was modified to create a water-repellent finishing by depositing a mod...
In this work, two series of PDMS-modified poly(styrene-alt-maleic anhydride)s (PSMA) were prepared b...
We have investigated the effects of surface treatment conditions and the fabric structure on the sur...
Woven cotton fabrics were treated with a polyurethane modified aminosilicone fluid commonly used as ...
In this paper, superhydrophobicity of cotton fabric was produced by simple immersion method in non-f...
Surface functionalization of textiles is crucial in developing protective clothing that protects wea...
Hydrophobization of polar substrates is an important prerequisite for many applications. Hydrophobic...
We report a biomimetic procedure to prep. superhydrophobic cotton textiles. By in situ introducing s...
In this article, we report the modification of poly(styrene-alt-maleic anhydride) (PSMA) with monofu...
We have recently developed a novel and simple approach based on aqueous solutions of block copolymer...
A novel modified admicellar polymerization (ADPM) technique has been proposed for achieving hydropho...
An effect of a hydrophobic composition based on polymers on the hydrophobicity and performance prope...
Superhydrophobic surfaces were created on hydrophilic cotton fabrics by a simple wet chemical proces...
The surface of cotton textile was modified to create a water-repellent finishing by depositing a mod...
In this work, two series of PDMS-modified poly(styrene-alt-maleic anhydride)s (PSMA) were prepared b...
We have investigated the effects of surface treatment conditions and the fabric structure on the sur...
Woven cotton fabrics were treated with a polyurethane modified aminosilicone fluid commonly used as ...
In this paper, superhydrophobicity of cotton fabric was produced by simple immersion method in non-f...
Surface functionalization of textiles is crucial in developing protective clothing that protects wea...
Hydrophobization of polar substrates is an important prerequisite for many applications. Hydrophobic...
We report a biomimetic procedure to prep. superhydrophobic cotton textiles. By in situ introducing s...
In this article, we report the modification of poly(styrene-alt-maleic anhydride) (PSMA) with monofu...
We have recently developed a novel and simple approach based on aqueous solutions of block copolymer...