Electrospun Conductive Polymer Scaffolds: Tailoring Fiber Diameter and Electrical Properties for Tissue Engineering Applications

Materials Today Communications, Journal Year: 2025, Volume and Issue: unknown, P. 112596 - 112596

Published: April 1, 2025

Language: Английский

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Fabrication of polypropylene-g-poly(acrylic acid) based microfibers by combination of photo-induced metal-free ATRP and electrospinning process

Journal of Polymer Research, Journal Year: 2024, Volume and Issue: 31(5)

Published: May 1, 2024

Language: Английский

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NANOFIBERS PREPARED FROM SYNTHETIC POLYMERS AND BIOPOLYMERS AS ADVANCED EXTRACTION MATERIALS FOR SAMPLE PREPARATION PRIOR TO LIQUID CHROMATOGRAPHY

TrAC Trends in Analytical Chemistry, Journal Year: 2024, Volume and Issue: 180, P. 117912 - 117912

Published: Aug. 13, 2024

Language: Английский

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Collagen-based nanofibers: revolutionizing therapeutics for impaired wound healing

International Journal of Polymeric Materials, Journal Year: 2024, Volume and Issue: unknown, P. 1 - 29

Published: Sept. 23, 2024

Language: Английский

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Functional electrospinning Janus dressings with asymmetric surface wettability

Applied Materials Today, Journal Year: 2024, Volume and Issue: 41, P. 102445 - 102445

Published: Sept. 30, 2024

Language: Английский

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Core–Sheath Fibers via Single-Nozzle Spinneret Electrospinning of Emulsions and Homogeneous Blend Solutions

Materials, Journal Year: 2024, Volume and Issue: 17(21), P. 5379 - 5379

Published: Nov. 4, 2024

The preparation of core–sheath fibers by electrospinning is a topic significant interest for producing composite with distinct core and sheath functionalities. Moreover, in fibers, low-molecular-weight substances or nanosized inorganic additives can be deposited targeted manner within the sheath. Commonly, obtaining structure, coaxial used. It requires spinneret suitable immiscible solvents inner outer solutions. single-nozzle emulsions address these issues, but use stabilizing agent needed. A third approach—preparation homogeneous blend solutions two polymers polymer/low-molecular-weight substance—has been much less studied. circumvents difficulties associated emulsion thoroughly discussed this review. formation case attributed to phase-separation-driven self-organization during process. Some possibilities core–double using same method are also indicated. gained knowledge on potential applications prepared discussed.

Language: Английский

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Industrial-scale needle-less electrospinning of tetracycline-immobilized nanofibrous scaffolds using a polycaprolactone/polyethylene oxide/chitosan blend for wound healing

Journal of Industrial Textiles, Journal Year: 2024, Volume and Issue: 54

Published: Jan. 1, 2024

Nanofibrous scaffolds offer significant promise for wound healing due to their ability absorb exudates, prevent microbial contamination, and enhance oxygen diffusion. However, challenges remain in fully realizing clinical potential, as previous research has primarily focused on made of two polymers or those encapsulating therapeutic agents within nanofibers. Additionally, scaling up fabrication while maintaining functionality presents a challenge. This study introduces novel type nanofibrous scaffold, combining poly (ethylene oxide) (PEO), (caprolactone) (PCL), chitosan (CS) various mass ratios, electrospun using Nanospider™ technology. The featured fiber diameters ranging from 134 ± 37 148 38 nm exhibit high gram-per-square-meter values between 6.8 8.6 g/m 2 . An optimal balance hydrophilicity was achieved, the demonstrated superior breathability with moisture vapor transmission rates 1904.3 28.6 2005.7 42.9 /day, outperforming commercial dressings. wide range hydrolytic degradation (3.8 1% 73.2 0.8%), elongation at fracture (21% Young’s modulus (106.7 8.5 MPa 170.7 11.9 MPa) were observed. Surface-immobilized tetracycline (TET) significantly enhanced antibacterial efficacy, inhibition zones exceeding 20 mm against Escherichia coli. Our findings confirm that scaffold properties can be effectively tailored by adjusting PEO/PCL ratio, advancing customization care. Post-fabrication soaking TET solutions further boosts performance allows post-production adjustments. Compared existing studies, this approach simplifies improves practicality care solutions.

Language: Английский

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Electrospun-based nanofibers as ROS-scavenging scaffolds for accelerated wound healing: a narrative review

International Journal of Polymeric Materials, Journal Year: 2024, Volume and Issue: unknown, P. 1 - 33

Published: Dec. 16, 2024

This review delves into the efficacy of electrospun nanofibers as structures capable neutralizing Reactive Oxygen Species (ROS), thereby aiding in acceleration wound repair. ROS occupy a dual position cellular dynamics, being indispensable for intracellular communication, yet they potentially exacerbate oxidative stress which can stall healing trajectory. The method electrospinning synthesizes distinguished by their expansive surface area relative to volume and notable porosity, rendering them optimally suited medical endeavors, particularly frameworks that bolster recuperation. analysis elucidates diverse roles these play, from enhancing clot formation combating microbial invasion mitigating inflammation, fostering proliferation, facilitating angiogenesis—each pivotal component effective mending wounds.

Language: Английский

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