Electrospun Bi-decorated Bi Ti O /TiO2 flexible carbon nanofibers and their applications on degradating of organic pollutants under solar radiation

Yao, Liangtao; Sun, Chunli; Lin, Hui; Li, Guisheng; Lian, Zichao; Song, Ruixin; Zhuang, Songlin; Zhang, Dawei

doi:10.1016/j.jmst.2022.07.066

Cited by 41 publications

(29 citation statements)

References 59 publications

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“…Electrospun porous nanofibers have become a research hotspot, so with the progress and development of electrospinning technology and the unremitting efforts of scientists and researchers, more excellent performances of electrospun porous nanofibers can be developed. The expansion of their applications can be further strengthened along with the fast developments in modern science and technology, such as encapsulating new functional ingredients [ 182 , 183 , 184 ] and additives [ 185 , 186 ], exploring new types of filament-forming polymeric matrices [ 187 , 188 ], being introduced to popular life-improving applications [ 189 , 190 , 191 , 192 , 193 , 194 ], taking advantage of new strategies of synthesizing materials [ 195 , 196 ], and drawing support from traditional techniques for production on a large scale [ 197 , 198 ].…”

Section: Discussionmentioning

confidence: 99%

Recent Progress of the Preparation and Application of Electrospun Porous Nanofibers

Wang

Cao

et al. 2023

Polymers

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Electrospun porous nanofibers have gained a lot of interest recently in various fields because of their adjustable porous structure, high specific surface area, and large number of active sites, which can further enhance the performance of materials. This paper provides an overview of the common polymers, preparation, and applications of electrospun porous nanofibers. Firstly, the polymers commonly used to construct porous structures and the main pore-forming methods in porous nanofibers by electrospinning, namely the template method and phase separation method, are introduced. Secondly, recent applications of electrospun porous nanofibers in air purification, water treatment, energy storage, biomedicine, food packaging, sensor, sound and wave absorption, flame retardant, and heat insulation are reviewed. Finally, the challenges and possible research directions for the future study of electrospun porous nanofibers are discussed.

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Section: Discussionmentioning

confidence: 99%

Recent Progress of the Preparation and Application of Electrospun Porous Nanofibers

Wang

Cao

et al. 2023

Polymers

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“…Compared with commercially available Tegaderm dressings, this wound dressing shows high biocompatibility and also promotes wound collagen fibers and angiogenesis. For the preservation of food, in order to improve the stability, Peng et al [93] made efforts to successfully develop a biocomposite film of polyvinyl alcohol (PVA) and polyvinylpyrrolidone (PVP) encapsulated Nervilia fordii (NFE) by electrospinning. The fiber morphology is beadless and smooth (Figure 7E).…”

Section: Hydrophilicitymentioning

confidence: 99%

“…Among the substances with antibacterial properties, some secondary metabolites of herbaceous plants, such as essential oils (EO), are mainly terpenoids, which have antioxidant and antibacterial properties. For example, Ziziphora clinopodioides essential oil (ZEO) and sesame essential oil (SO) [210], Laurus nobilis and Rosmarinus officinalis essential oils [235], Cinnamon essential oil [260], Oliveria decumbens Vent essential oil (OEO) [214] and other Chinese herbal bioactive substances with antimicrobial effects such as sucrose seed meal powder [13], Pomegranate peel [237], Acalypha indica [193], Nervilia fordii [93] for the preservation of high-fat foods and Butia catarinensis [261] for the outer packaging of biological foods. However, the effective active ingredients are usually affected by poor solubility, high volatility, and environmental factors (heat sensitivity) [188].…”

Section: Food Packagingmentioning

confidence: 99%

“…These properties can support cell synthesis of specific proteins and other biochemical and biological processes required for healthy tissue growth [28,83]. Therefore, electrospun fibers have become excellent candidates for various applications, such as catalysis [84], filtration [85], water treatment [86][87][88][89], biosensors [90][91][92], food packaging [93,94], cosmetics [95] and biomedicine [96][97][98][99][100][101].…”

Section: Introduction Of Electrospinning Technologymentioning

confidence: 99%

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Recent Progress of Electrospun Herbal Medicine Nanofibers

et al. 2023

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Herbal medicine has a long history of medical efficacy with low toxicity, side effects and good biocompatibility. However, the bioavailability of the extract of raw herbs and bioactive compounds is poor because of their low water solubility. In order to overcome the solubility issues, electrospinning technology can offer a delivery alternative to resolve them. The electrospun fibers have the advantages of high specific surface area, high porosity, excellent mechanical strength and flexible structures. At the same time, various natural and synthetic polymer-bound fibers can mimic extracellular matrix applications in different medical fields. In this paper, the development of electrospinning technology and polymers used for incorporating herbal medicine into electrospun nanofibers are reviewed. Finally, the recent progress of the applications of these herbal medicine nanofibers in biomedical (drug delivery, wound dressing, tissue engineering) and food fields along with their future prospects is discussed.

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“…Electrospinning is one of the powerful methods for continuous production of drug loaded nanofibers ( Xue et al, 2019 ; Liu et al, 2022a ; Sivan et al, 2022b ; Cao et al, 2022 ; Han et al, 2022 ; Lv et al, 2022 ), and electrospun nanofibers have been demonstrated their potential applications in almost all kinds of scientific fields such as energy, environment, medical and food ( Pang et al, 2021 ; Jiang et al, 2022a ; Li et al, 2022a ; Bai et al, 2022 ; Xu et al, 2022 ; Yu et al, 2023 ). As a top-down technology, electrospinning is famous for its simplicity, efficiency and flexibility in direct preparation of nanofibers ( Du et al, 2022 ; Huang et al, 2022 ; Yao et al, 2022 ). At present, there are many researches using electrospinning as a tool to construct medicated nanofibers ( Huang et al, 2021 ; Peng et al, 2021 ; El-Shanshory et al, 2022 ; Hameed et al, 2022 ).…”

Section: Introductionmentioning

confidence: 99%

Electrospun self-emulsifying core-shell nanofibers for effective delivery of paclitaxel

Ge¹,

Ding

et al. 2023

Front. Bioeng. Biotechnol.

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The poor solubility of numerous drugs pose a long-existing challenge to the researchers in the fields of pharmaceutics, bioengineering and biotechnology. Many “top-down” and “bottom-up” nano fabrication methods have been exploited to provide solutions for this issue. In this study, a combination strategy of top-down process (electrospinning) and bottom-up (self-emulsifying) was demonstrated to be useful for enhancing the dissolution of a typical poorly water-soluble anticancer model drug (paclitaxel, PTX). With polyvinylpyrrolidone (PVP K90) as the filament-forming matrix and drug carrier, polyoxyethylene castor oil (PCO) as emulsifier, and triglyceride (TG) as oil phase, Both a single-fluid blending process and a coaxial process were utilized to prepare medicated nanofibers. Scanning electron microscope and transmission electron microscope (TEM) results clearly demonstrated the morphology and inner structures of the nanofibers. The lipid nanoparticles of emulsions after self-emulsification were also assessed through TEM. The encapsulation efficiency (EE) and in vitro dissolution tests demonstrated that the cores-shell nanofibers could provide a better self-emulsifying process int terms of a higher EE and a better drug sustained release profile. Meanwhile, an increase of sheath fluid rate could benefit an even better results, suggesting a clear process-property-performance relationship. The protocols reported here pave anew way for effective oral delivery of poorly water-soluble drug.

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Electrospun Bi-decorated Bi Ti O /TiO2 flexible carbon nanofibers and their applications on degradating of organic pollutants under solar radiation

Cited by 41 publications

References 59 publications

Recent Progress of the Preparation and Application of Electrospun Porous Nanofibers

Recent Progress of the Preparation and Application of Electrospun Porous Nanofibers

Recent Progress of Electrospun Herbal Medicine Nanofibers

Electrospun self-emulsifying core-shell nanofibers for effective delivery of paclitaxel

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