Developing Breathable Double‐Layered Fibrous Membranes Equipped with Water Pulling Mechanism Toward Clothing with Enhanced Comfort

Fashandi, Hossein; Ghomi, Amir Reza

doi:10.1002/adem.201600863

Cited by 24 publications

(16 citation statements)

References 30 publications

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“…Compared with the AOTI value of DPP 2.5 /DCotton fibrous mat (spinning time of 2.5 hr), there is a decrease in DPP 3 / DCotton and certain quantity of water is retained in the top layer, ascribed to highly thick PP layer hindering water penetration. [30,31] 3.4 | Comprehensive analysis on directional moisture transport in fibrous mat Figure 7a visibly demonstrates the water transport progress in designed fibrous mat. It can be observed that when certain amount of droplets (200 μl) are dripped onto the surface of hydrophobic side, the droplets smoothly passes through the top layer rather than spread much on this side owning to its hydrophobic property, and only small ink stain appears on the surface.…”

Section: Effects Of Pp Layer Thickness On Directional Moisture Tranmentioning

confidence: 99%

Tailoring double‐layered fibrous mat of modified polypropylene/cotton fabric for the function of directional moisture transport

Xin

Wang

et al. 2020

J of Applied Polymer Sci

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It has been widely acknowledged that the moisture (sweat) management in the textile is a crucial performance to adjust human comfort. Herein, a double‐layered fibrous mat of modified polypropylene (PP)/cotton fabric for the function of directional moisture transport was reported. The PP fibers were deposited on the surface of cotton fabric via melt‐electrospinning to form as‐prepared fibrous mat, wherein the PP mat was used as the inner layer and the cotton fabric acted as the outer layer. The as‐prepared fibrous mats were modified by means of plasma treatment and grafting hydrophilic groups for the sake of converting natural hydrophobicity of PP fibers into moderate wettability. After these treatments, sweat can be transport from the inner layer to the out layer rather than accumulating on the surface of the PP layer, while the capillary action of the cotton fabric on sweat was further enhanced. The directional moisture transport was systematically characterized by a moisture management tester and the experimental results exhibited remarkable accumulative one‐way transport index (1,103.1%), outstanding overall moisture management capacity (0.91) within 120 s and high water vapor transport rate (11.3 kg d−1 m−2). Besides, the obtained fibrous mat also provided decent wearability, showing the great application prospects in the moisture (sweat) management of textiles.

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Section: Effects Of Pp Layer Thickness On Directional Moisture Tranmentioning

confidence: 99%

Tailoring double‐layered fibrous mat of modified polypropylene/cotton fabric for the function of directional moisture transport

Xin

Wang

et al. 2020

J of Applied Polymer Sci

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“…Conventional direction water transport fabrics are capable of transmitting body water and moisture mono‐directional, thus the perspiration is pulled away from the skin to the atmosphere rapidly. However, they are typically devoid of effective waterproofness in the inverse direction, resulting in poor protective function . Recently, W&B nanofibrous membranes have been successfully applied to solve this problem.…”

Section: Applications Of Electrospun Wandb Membranesmentioning

confidence: 99%

“…However, they are typically devoid of effective waterproofness in the inverse direction, resulting in poor protective function. [130] Recently, W&B nanofibrous membranes have been successfully applied to solve this problem. A typical example was given by the study of constructing trilayered W&B nanofibrous membranes with progressive wettability, transferring human sweat for quick evaporation and hindering outside liquid water penetration simultaneously.…”

Section: Functional Garmentsmentioning

confidence: 99%

Waterproof and Breathable Electrospun Nanofibrous Membranes

et al. 2019

Macromol. Rapid Commun.

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Waterproof and breathable (W&B) membranes combine fascinating properties of resistance to liquid water penetration and transmitting of water vapor, playing a key role in addressing problems related to health, resources, and energy. Electrospinning is an efficient and advanced way to construct nanofibrous materials with easily tailored wettability and adjustable pore structure, therefore providing an ideal strategy for constructing W&B membranes. In this review, recent progress on electrospun W&B membranes is summarized, involving materials design and fabrication, basic properties of electrospun W&B membranes associated with waterproofness and breathability, as well as their applications. In addition, challenges and future trends of electrospun W&B membranes are discussed.

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“…Trilayered brous membranes 5 Continuous, spontaneous, and directional water transport Cellulose acetate-based nanobrous membranes 28 Breathable and colorful Nonwoven/Polyacrylonitrile-SiO 2 nanober composite membranes 10 Potential candidate for fast sweat release applications Double-layered membranes constructed of poly(vinylideneuoride) brous layer and nylon-6 nanobrous layer 33 Promising candidate for developing modern breathable textiles with enhanced moisture management properties such as sportswear Unidirectional water-penetration composite of hydrophobic polyurethane and hydrophilic crosslinked poly (vinyl alcohol) brous layers 1 An interesting "water diode" lm is fabricated via a facile electrospinning technique Dual-layer electrospun nanobrous mats consisting of polyacrylonitrile layer and polystyrene layer with and without interpenetrating nanopores, respectively 2 Tailoring surface hydrophilicity of porous electrospun nanobers to enhance capillary and push-pull effects for moisture wicking Presently, electrospun brous membranes can be prepared via solution electrospinning and melt-electrospinning. 11,12 The solution-electrospinning process is a method with ordinary operation, and bers can reach the nano-scale.…”

Section: Characteristicmentioning

confidence: 99%

Preparation and characterization of multilayered superfine fibrous mat with the function of directional water transport

Chen

Liu

et al. 2019

RSC Adv.

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Developing Breathable Double‐Layered Fibrous Membranes Equipped with Water Pulling Mechanism Toward Clothing with Enhanced Comfort

Cited by 24 publications

References 30 publications

Tailoring double‐layered fibrous mat of modified polypropylene/cotton fabric for the function of directional moisture transport

Tailoring double‐layered fibrous mat of modified polypropylene/cotton fabric for the function of directional moisture transport

Waterproof and Breathable Electrospun Nanofibrous Membranes

Preparation and characterization of multilayered superfine fibrous mat with the function of directional water transport

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