The Effect of Combined Atmospheric Plasma/UV Treatments on Improving the Durability of Flame Retardants Applied to Cotton

Review Physics, Applied

Atmospheric Pressure Plasma in Industrial Applications: Surface treatment of thermally sensitive polymers

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Summary: This paper introduces the development and application of atmospheric pressure plasma technology, with a focus on the use of corona treatment to improve adhesion on material surfaces.

PLASMA PROCESSES AND POLYMERS (2022)

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Article Materials Science, Multidisciplinary

The Impact of Atmospheric Plasma/UV Laser Treatment on the Chemical and Physical Properties of Cotton and Polyester Fabrics

Maram Ayesh et al.

Summary: Atmospheric plasma treatment can modify fabric surfaces without affecting their bulk properties. A study on cotton and polyester fabrics using a combination of plasma and UV laser energy sources found that the fabric surfaces were influenced by plasma power dosage, atmosphere composition, and the presence or absence of UV laser energy. The study characterized the changes using various techniques and also found that intermediate radical formation played a key role in determining surface changes.

FIBERS (2022)

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Article Chemistry, Physical

Combined atmospheric pressure plasma and UV surface functionalisation and diagnostics of nylon 6.6 fabrics

B. T. Weclawski et al.

Summary: This study aimed to functionalize and characterize the surface of nylon 6.6 fabrics through a novel atmospheric cold plasma coupled with ultraviolet excimer laser treatment. The treatment did not physically degrade the fibers, but induced changes in surface chemistry by generating additional functional groups. Analysis of these chemical surface changes required a new low-temperature diagnostic dyeing method, compared with X-ray photoelectron spectroscopy. Radicals were proposed as the mechanisms for these surface changes, with their characteristics depending on the atmosphere type and plasma power used. Radical production was confirmed using radical scavengers and spectroscopic analysis.

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Review Polymer Science

Promising grafting strategies on cellulosic backbone through radical polymerization processes - A review

Maneesh Kumar et al.

Summary: Cellulose is an abundant organic substance with various applications such as paperboard production, drug delivery, and food packaging due to its bio-renewable and bio-degradable properties. Radical polymerization is commonly used to create cellulose derivatives with improved properties, by reacting cellulose with small organic fragments like methacrylate and styrene. Initiators like Fenton's reagent and controlled radical polymerization methods are utilized to generate free radicals on the cellulose backbone for grafting purposes, allowing for the development of functional cellulose with enhanced physical and chemical properties.

EUROPEAN POLYMER JOURNAL (2021)

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Review Materials Science, Textiles

Application of atmospheric pressure plasma technology for textile surface modification

Jelena Peran et al.

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Robust Fluorine-Free and Self-Healing Superhydrophobic Coatings by H3BO3 Incorporation with SiO2-Alkyl-Silane@PDMS on Cotton Fabric

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Surface-oriented fluorinated pyridinium silicone with enhanced antibacterial activity on cotton via supercritical impregnation

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Atmospheric Pressure Plasma Treatment for Grey Cotton Knitted Fabric

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Parametric Study of Effects of Atmospheric Pressure Plasma Treatment on the Wettability of Cotton Fabric

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Plasma modification of textiles: understanding the mechanisms involved

M. R. S. McCoustra et al.

TEXTILE PROGRESS (2018)

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Energy Conversion Efficiency in Low- and Atmospheric-Pressure Plasma Polymerization Processes, Part II: HMDSO

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Weak interactions and their impact on cellulose dissolution in an alkali/urea aqueous system

Sen Wang et al.

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Argon Plasma Treatment of Fluorine-Free Silane Coatings: A Facile, Environment-Friendly Method to Prepare Durable, Superhydrophobic Fabrics

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CHEMICAL SOCIETY REVIEWS (2017)

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Effect of plasma superficial treatments on antibacterial functionalization and coloration of cellulosic fabrics

Nabil A. Ibrahim et al.

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Self-assembled antibacterial coating by N-halamine polyelectrolytes on a cellulose substrate

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JOURNAL OF MATERIALS CHEMISTRY B (2015)

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Review Physics, Applied

Plasma Treatment in Textile Industry

Andrea Zille et al.

PLASMA PROCESSES AND POLYMERS (2015)

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Facile Fabrication of Superhydrophobic Cotton Fabric from Stearyl Methacrylate Modified Polysiloxane/Silica Nanocomposite

Lifen Hao et al.

FIBERS AND POLYMERS (2012)

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Towards flame retardant cotton fabrics by atmospheric pressure plasma-induced graft polymerization: Synthesis and application of novel phosphoramidate monomers

Brian Edwards et al.

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Helium/oxygen atmospheric pressure plasma jet treatment for hydrophilicity improvement of grey cotton knitted fabric

Liqiang Tian et al.

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Sunghyun Nam et al.

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A. R. Horrocks et al.

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Atmospheric pressure plasma polymerization of hexamethyldisiloxane for imparting water repellency to cotton fabric

Kiran H. Kale et al.

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TEXTILE RESEARCH JOURNAL (2009)

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Improvements of surface functionality of cotton fibers by atmospheric plasma treatment

H. A. Karahan et al.

FIBERS AND POLYMERS (2008)

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Flame retardancy of cotton textiles by plasma-induced graft-polymerization (PIGP)

M. J. Tsafack et al.

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Angle-dependent XPS study of functional group orientation for aminosilicone polymers adsorbed onto cellulose surfaces

MC Burrell et al.

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Organosilicon surface layer on polyolefins to achieve improved flame retardancy through an oxygen barrier effect

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The Effect of Combined Atmospheric Plasma/UV Treatments on Improving the Durability of Flame Retardants Applied to Cotton

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