Cotton fabric incorporated with β-cyclodextrin/ketoconazole/Ag NPs generating outstanding antifungal and antibacterial performances

Hedayati, Nafiseh; Montazer, Majid; Rad, Mahnaz Mahmoudi; Toliyat, Tayebeh

doi:10.1007/s10570-021-04001-7

Cited by 10 publications

(6 citation statements)

References 56 publications

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“…The presence of Ag NPs in the composite prevented the nanoparticles from aggregation and reduced its loading on the cotton fabric that possibly reduced the drug side effects. Finally, the good durability of β -CD/KZ/Ag nanocomposite on cotton fabric in consecutive washes leads to the superior antimicrobial activities, breathability, water and moisture absorption with reasonable tensile strength that can be offered as a safe product with both the antifungal and antibacterial features [93].…”

Section: Health Care and Hygiene Productsmentioning

confidence: 99%

Recent developments in the utilization of polymer nanocomposites in textile applications

Zayed

Bakr²,

Ghazal³

2023

J.Text.color. pol. sci.

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HE most significant reasons for functionalizing textiles are the enhancement of current qualities and the development of new material properties. Polymer nanocomposites provide the opportunity to create a new class of nano-finishing materials for textiles with their own system of structure-property relationships that are only indirectly connected to their components and their micron and macro-scale composite counterparts. Polymeric matrix nanocomposites made up of inorganic nanoparticles and organic polymers are a new class of materials that outperform compared to their microparticle counterparts. Incorporating inorganic nanoparticles into a polymer matrix can have a significant impact on the matrix's properties. The characteristics of polymer nanocomposites are determined by the type of nanoparticles used, their size and shape, their concentration, and their interactions with the polymer matrix. When polymer nanocomposite coatings are applied to textiles, they give materials various functionalities, as they can be used in protective fabrics, medical textiles, and conductive textiles…. Etc.

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Section: Health Care and Hygiene Productsmentioning

confidence: 99%

Recent developments in the utilization of polymer nanocomposites in textile applications

Zayed

Bakr²,

Ghazal³

2023

J.Text.color. pol. sci.

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“…Ketoconazole is an antifungal drug, and the incorporation of AgNPs on β-CDs/KZ improved its antimicrobial properties and governed its release rate. In the sample produced with 2% of Ag, the microbial reduction was 100% in C. albicans and A. niger and about 85% in E. coli and S. aureus [ 115 ]. Antimicrobial cotton fabrics were developed using β-CDs and sulfated β-CDs (S-β-CDs) to host AgNPs, forming inclusion complexes.…”

Section: Polysaccharides In Metal-nanoparticle-functionalized Textilesmentioning

confidence: 99%

“…Green synthesis, through precursors of biological origin, such as polysaccharides, prevents pollution and mitigates cytotoxicity during the early stages of chemical processes [ 168 ]. Successful synthesis and stabilization of MNPs using these biological macromolecules was achieved in several works by the coordination bonds between the metal salts and functional groups of polysaccharides [ 46 , 72 , 86 , 88 , 105 , 115 , 134 ]. Poor MNP adhesion in textiles is an important challenge for the textile industry, as it results in excessive leaching during washing and disposal, which should be considered prior to their application [ 169 ].…”

Section: Safety Issues Of Mnps and The Role Of Polysaccharidesmentioning

confidence: 99%

Polysaccharides and Metal Nanoparticles for Functional Textiles: A Review

et al. 2022

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Nanotechnology is a powerful tool for engineering functional materials that has the potential to transform textiles into high-performance, value-added products. In recent years, there has been considerable interest in the development of functional textiles using metal nanoparticles (MNPs). The incorporation of MNPs in textiles allows for the obtention of multifunctional properties, such as ultraviolet (UV) protection, self-cleaning, and electrical conductivity, as well as antimicrobial, antistatic, antiwrinkle, and flame retardant properties, without compromising the inherent characteristics of the textile. Environmental sustainability is also one of the main motivations in development and innovation in the textile industry. Thus, the synthesis of MNPs using ecofriendly sources, such as polysaccharides, is of high importance. The main functions of polysaccharides in these processes are the reduction and stabilization of MNPs, as well as the adhesion of MNPs onto fabrics. This review covers the major research attempts to obtain textiles with different functional properties using polysaccharides and MNPs. The main polysaccharides reported include chitosan, alginate, starch, cyclodextrins, and cellulose, with silver, zinc, copper, and titanium being the most explored MNPs. The potential applications of these functionalized textiles are also reported, and they include healthcare (wound dressing, drug release), protection (antimicrobial activity, UV protection, flame retardant), and environmental remediation (catalysts).

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“…32,34 The CD inclusion complexes have been used for the functionalization of cotton surfaces for antibacterial and/or antifungal applications. 35,36 In this study, the γCD inclusion complexes of CAH molecules have been first incorporated into electrospun pullulan nanofibers (pullulan/CAH-γCD-IC NM) using a one-step process for developing a functional layer that can be inserted in the cloth mask (Figure 1). A comparative and detailed physical characterization has been performed with the control sample, CAH-loaded pullulan nanofibers (pullulan/CAH NM).…”

Section: ■ Introductionmentioning

confidence: 99%

“…As most essential oil compounds, CAH also suffers from potential losses during processing and/or long-term storage because of its volatile nature and sensitivity to heat, light, and air . The electrospinning technique represents a feasible way for the encapsulation of essential oils in the nanofibrous mat matrix; however, the single performance of polymeric templates may not be enough for the preservation of these volatile compounds. , Here, cyclodextrins (CDs), starch-derived cyclic oligosaccharides, can emerge as an effective encapsulation agent. , CDs display cost-effective and “green” solutions by enhancing the stability as well as solubility of volatile and hydrophobic essential oil compounds by forming inclusion complexes. , As it has been reported previously, the drawbacks of CAH molecules such as instability observed under ambient conditions and poor water solubility have been also overcome by inclusion complexation using different types of CDs. , The CD inclusion complexes have been used for the functionalization of cotton surfaces for antibacterial and/or antifungal applications. , In this study, the γCD inclusion complexes of CAH molecules have been first incorporated into electrospun pullulan nanofibers (pullulan/CAH-γCD-IC NM) using a one-step process for developing a functional layer that can be inserted in the cloth mask (Figure ). A comparative and detailed physical characterization has been performed with the control sample, CAH-loaded pullulan nanofibers (pullulan/CAH NM).…”

Section: Introductionmentioning

confidence: 99%

Antibacterial Nanofibrous Mat of Pullulan/Cinnamaldehyde-Cyclodextrin Inclusion Complexes as a Potential Cloth Mask Layer with Long-Term Storage Stability and Facile Disposal Property

Çelebioğlu

Lawson

Hsiung

et al. 2023

ACS Sustainable Chem. Eng.

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There is an ongoing rise in global plastic waste because of the mass production and vast consumption of surgical face masks during the COVID-19 outbreak. This problem leads to a crucial need for alternative face coverings which can eliminate environmental concerns. Using cloth masks can be a sustainable solution if combined with a functional filtering layer. In this study, electrospun nanofibrous mats (NM) were generated using a renewable biopolymer; pullulan by the incorporation of cyclodextrin inclusion complexes (γCD-IC) of naturally occurring essential oil compound; trans-cinnamaldehyde (CAH). Pullulan/CAH-γCD-IC NM was readily inserted into a cloth mask due to its free-standing and foldable features and achieved higher loading efficiency (∼62%) than pullulan/CAH NM (∼10%). Here, pullulan/CAH-γCD-IC NM showed substantial and better antibacterial activity, long-term storage stability, and thermal stability due to inclusion complexation. Pullulan/ CAH-γCD-IC NM was also obtained with promising properties of pore size (∼390 nm) and water vapor permeability (∼890 g/m 2 /day). The water solubility of pullulan/CAH-γCD-IC NM ensured fast and easy disposal without potential environmental loading, thanks to the biocompatibility of components. Briefly, pullulan/CAH-γCD-IC NM can create an attractive alternative as a functional layer that can be combined with the cloth mask.

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Cotton fabric incorporated with β-cyclodextrin/ketoconazole/Ag NPs generating outstanding antifungal and antibacterial performances

Cited by 10 publications

References 56 publications

Recent developments in the utilization of polymer nanocomposites in textile applications

Recent developments in the utilization of polymer nanocomposites in textile applications

Polysaccharides and Metal Nanoparticles for Functional Textiles: A Review

Antibacterial Nanofibrous Mat of Pullulan/Cinnamaldehyde-Cyclodextrin Inclusion Complexes as a Potential Cloth Mask Layer with Long-Term Storage Stability and Facile Disposal Property

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