Hydrophilic Modification of Polylactic Acid Fiber and the Usage of Natural Dye for Multi-Levered Improvement of the Fabric Staining Depth and the Stability Effect

Li, Wei; Yang, Ying; Xi, Xiaoqing; Feng, Jianyong

doi:10.1021/acs.langmuir.3c03721

Langmuir

2024

DOI: 10.1021/acs.langmuir.3c03721

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Hydrophilic Modification of Polylactic Acid Fiber and the Usage of Natural Dye for Multi-Levered Improvement of the Fabric Staining Depth and the Stability Effect

Wei Li,

Ying Yang,

Xiaoqing Xi

et al.

Abstract: Polylactic acid (PLA) fiber is a degradable material with good environmental friendliness for textile applications. However, the main problems of difficult dyeing of PLA fibers were: high crystallinity to the adsorption of dyes, more ester and methyl groups producing non-hydrophilic problems, long chains making dyes difficult to penetrate, and producing a low dyeing rate. Here, we attempted to change the crystallinity of the PLA fiber to a lower degree from hydrophobic to hydrophilicity property variation, des… Show more

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Cited by 2 publications

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Ecofriendly Dyeing Strategy Based on Dyeing Kinetics and Thermodynamic Analysis for Melt-Spun Polyurethane Fibers

Li,

Yang,

Hou

et al. 2024

Langmuir

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Melt-spun polyurethane fibers (MSPUFs) have garnered popularity owing to efficient production methods and exceptional stability. However, the development of the MSPUF has been restricted by challenges such as poor dyeability as well as energy and cost concerns associated with the dyeing process. Herein, we devised a highly efficient dyeing technique that operates at a lower temperature and a shorter duration. In comparison to conventional dyeing methods, our novel approach reduces the temperature from 98 to 75 °C, while reducing the amount of dye utilized by 25% and the dyeing time by 50%. In this method, the modifier increases both the positive charge and the amorphous zone of the fiber, while rational dyeing conditions are designed based on thermodynamic and kinetic analyses. This strategy enabled a 76.3% increase in E% and a 45.9% increase in K/S values at reduced temperatures and a shorter time while simultaneously improving the dye−fiber bonding fastness. This research methodology not only enhances the dyeing performance of MSPUF but also reduces energy consumption and dyeing costs, presenting an ecofriendly and economically novel approach for the development of dyeable MSPUF.

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Ecofriendly Dyeing Strategy Based on Dyeing Kinetics and Thermodynamic Analysis for Melt-Spun Polyurethane Fibers

Li,

Yang,

Hou

et al. 2024

Langmuir

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show abstract

Sustainable Strategy for Promoting the Color Strength and Dimensional Stability of Polylactic Acid Fabrics

Dong,

Pei,

Zhu

et al. 2024

ACS Appl. Polym. Mater.

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Hydrophilic Modification of Polylactic Acid Fiber and the Usage of Natural Dye for Multi-Levered Improvement of the Fabric Staining Depth and the Stability Effect

Cited by 2 publications

References 39 publications

Ecofriendly Dyeing Strategy Based on Dyeing Kinetics and Thermodynamic Analysis for Melt-Spun Polyurethane Fibers

Ecofriendly Dyeing Strategy Based on Dyeing Kinetics and Thermodynamic Analysis for Melt-Spun Polyurethane Fibers

Sustainable Strategy for Promoting the Color Strength and Dimensional Stability of Polylactic Acid Fabrics

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