Recent Advances in Electrospun Sustainable Composites for Biomedical, Environmental, Energy, and Packaging Applications

Electrospinning has gained constant enthusiasm and wide interest as a novel sustainable material processing technique due to its ease of operation and wide adaptability for fabricating eco-friendly fibers on a nanoscale. In addition, the device working parameters, spinning solution properties, and the environmental factors can have a significant effect on the fibers’ morphology during electrospinning. This review summarizes the newly developed principles and influence factors for electrospinning technology in the past five years, including these factors’ interactions with the electrospinning mechanism as well as its most recent applications of electrospun natural or sustainable composite materials in biology, environmental protection, energy, and food packaging materials.

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[126]  Hongquan Yu,et al.  Electrospun ZnCo2O4/C composite nanofibers with superior electrochemical performance for supercapacitor , 2020 .

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[128]  Haibin Sun,et al.  Electrospinning preparation and dye adsorption capacity of TiO2@Carbon flexible fiber , 2019, Ceramics International.

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[134]  M. Beckmann,et al.  Electrospun patterned porous scaffolds for the support of ovarian follicles growth: a feasibility study , 2019, Scientific Reports.

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[137]  Chaobo Huang,et al.  Green Electrospun Nanofibers and Their Application in Air Filtration , 2018, Macromolecular Materials and Engineering.

[138]  W. Cho,et al.  Performance improvement in electrospun InGaZnO nanofibres field-effect-transistors using low thermal budget microwave calcination and Ar/O2 mixed-plasma surface treatment , 2020, Scientific Reports.

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[141]  S. Ramakrishna,et al.  Electrospinning of Carboxymethyl Chitosan/Polyoxyethylene Oxide Nanofibers for Fruit Fresh-Keeping , 2018, Nanoscale Research Letters.

[142]  Sabu Thomas,et al.  Electrospinning tissue engineering and wound dressing scaffolds from polymer-titanium dioxide nanocomposites , 2019, Chemical Engineering Journal.

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[144]  A. Avci,et al.  Electrospinning of polymeric nanofiber (nylon 6,6/graphene oxide) for removal of Cr (VI): synthesis and adsorption studies , 2019, Journal of Analytical Science and Technology.

[145]  Min Hee Kim,et al.  Electrospinning and wound healing activity of β-chitin extracted from cuttlefish bone. , 2018, Carbohydrate polymers.

[146]  A. López-Rubio,et al.  Electrospun curcumin-loaded protein nanofiber mats as active/bioactive coatings for food packaging applications , 2019, Food Hydrocolloids.

[147]  Guixue Wang,et al.  Design, Preparation, and Performance of a Novel Bilayer Tissue-Engineered Small-Diameter Vascular Graft. , 2018, Macromolecular bioscience.

[148]  N. Manolova,et al.  Chitosan/ferulic acid-coated poly(ε-caprolactone) electrospun materials with antioxidant, antibacterial and antitumor properties. , 2018, International journal of biological macromolecules.

[149]  J. Chvojka,et al.  Production of gelatin nanofibrous layers via alternating current electrospinning , 2019, Materials Letters.

[150]  Siyu Wang,et al.  Enhanced adsorption and degradation of phenolic pollutants in water by carbon nanotube modified laccase-carrying electrospun fibrous membranes , 2016 .

[151]  Seeram Ramakrishna,et al.  Electrospun nanofibres to mimic natural hierarchical structure of tissues: application in musculoskeletal regeneration , 2018, Journal of tissue engineering and regenerative medicine.

[152]  Tianyu Liu,et al.  Block copolymer–based porous carbon fibers , 2019, Science Advances.

[153]  S. Sahin,et al.  Enhancing oxidative stability of walnuts by using gallic acid loaded lentil flour based electrospun nanofibers as active packaging material , 2019, Food Hydrocolloids.

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