Synthesizing environmentally friendly non-silicone oxygen bleaching stabilizer for linen yarn using oligomeric acrylic acid

Liu, Jie; Lv, Chun

doi:10.1038/s41598-021-89888-9

Cited by 7 publications

(2 citation statements)

References 23 publications

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“…Both bleaching and scouring of linen were carried out according to previously reported procedures. [31] To remove all waxes and impurities, the linen samples were scoured for 30 min in aqueous medium using 2 g/L of Na 2 CO 3 and 2 g/L of Hostapal detergent (Clariant, Swiss) at a liquor ratio of 1:50. Afterwards, the materials were rinsed with water and air dried.…”

Section: Methodsmentioning

confidence: 99%

Development of functional glow‐in‐the‐dark photoluminescence linen fabrics with ultraviolet sensing and shielding

et al. 2022

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Linen fibres were coated with a glow‐in‐the‐dark photoluminescence, flame‐retarding, and hydrophobic smart nanocomposite using the pad‐dry‐curing process. Ecologically friendly ammonium polyphosphate and lanthanide‐activated strontium aluminium oxide (LSAO) nanoparticles were immobilized into linen fabric using eco‐friendly room‐temperature‐vulcanizing silicone rubber. Different analytical techniques were used to examine the morphological characteristics and elemental compositions of LSAO nanoparticles and treated linen textiles. The self‐extinguishing properties of the treated linen textiles were tested for their fire resistance. After 24 washing cycles, the coated linen samples retained their flame‐retarding properties. The treated linen's superhydrophobicity rose in direct proportion to the LSAO concentration. After being excited at 365 nm, the colourless luminescent film that was coated on linen surface gave out an emission wavelength of 519 nm. The photoluminescent linen was monitored to create a range of different colours, including off‐white in daytime light and green under ultraviolet (UV) light radiation, according to the Commission Internationale de l'éclairage laboratory colorimetric coordinates and photoluminescence spectra. Emission, excitation, and lifetime spectral analysis of the treated linen revealed persistent phosphorescence. For mechanical and comfort evaluation, the coated linen textiles' bending length and air permeability were assessed. Good UV light shielding and enhanced antibacterial activity were detected in the treated linens.

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Section: Methodsmentioning

confidence: 99%

Development of functional glow‐in‐the‐dark photoluminescence linen fabrics with ultraviolet sensing and shielding

et al. 2022

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“…The linen sample was supplied from Misr-Helwan for Spinning and Weaving (Egypt). Both bleaching and scouring of linen were carried out according to previously reported procedures [31]. To remove all waxes and impurities, the linen samples were scoured for 30 minutes in aqueous medium using 2 g/L of Na 2 CO 3 and 2 g/L of Hostapal detergent (Clariant, Swiss) at a liquor ratio of 1:50.…”

Section: Materials and Reagentsmentioning

confidence: 99%

Facile development of multifunctional photoluminescent linen fabrics for high performance textile applications

Ahmed

Maamoun

Hassan

et al. 2022

Preprint

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Linen fibers were coated with a luminous, flame-retardant, and hydrophobic smart nanocomposite utilizing the pad-dry-curing process. Ecologically-friendly ammonium polyphosphate and lanthanide-activated strontium aluminum oxide (LSAO) nanoparticles were immobilized into linen fabric using the eco-friendly RTV silicone rubber. Scanning electron microscopy (SEM), energy-dispersive X-ray (EDX), X-ray fluorescence (XRF) spectroscopy, Fourier-transform infrared (FTIR) spectroscopy, and transmission electron microscopy (TEM) were employed to examine the morphological characteristics and elemental compositions of LSAO nanoparticles and treated linen textiles. The self-extinguishing properties of the treated linen textiles were tested for their fire-resistance. After 24 washing cycles, the coated linen samples retained their flame-retardant properties. The treated linen's superhydrophobicity rose in direct proportion to the LSAO concentration. After being excited at 365 nm, the colorless luminescent film that was coated on linen surface gave out an emission wavelength of 519 nm. The photoluminescent linen was monitored to create a range of different colors, including off-white in daytime light and green under UV radiation, according to the CIE Lab colorimetric coordinates and photoluminescence spectra. Emission, excitation and lifetime spectral analysis of the treated linen revealed persistent phosphorescence. For mechanical and comfort evaluation, the coated linen textiles' bending length and air permeability were assessed. Excellent UV protection and enhanced antibacterial properties were found in the treated linens. Large-scale manufacturing of multipurpose technical fabrics, such as tents, might benefit from the current simple technique.

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Bleaching flax roving with poly(acrylic acid) magnesium salt as oxygen bleaching stabilizer for hydrogen peroxide

et al. 2021

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Synthesizing environmentally friendly non-silicone oxygen bleaching stabilizer for linen yarn using oligomeric acrylic acid

Cited by 7 publications

References 23 publications

Development of functional glow‐in‐the‐dark photoluminescence linen fabrics with ultraviolet sensing and shielding

Development of functional glow‐in‐the‐dark photoluminescence linen fabrics with ultraviolet sensing and shielding

Facile development of multifunctional photoluminescent linen fabrics for high performance textile applications

Bleaching flax roving with poly(acrylic acid) magnesium salt as oxygen bleaching stabilizer for hydrogen peroxide

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