2023
DOI: 10.1002/adtp.202300015
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Fabrication and Facile Surface Derivatization of Poly(ε‐caprolactone)‐Based Wound Dressing Materials Imparting Anti‐Infective, Excessive Biofluid Drainage, and Easy‐to‐Peel Characteristics

Abstract: The rapid emergence of antimicrobial resistance warrants an antibiotic‐free approach to counter the bacterial threat in all possible applications of environmental and biomedical domains. In the context of smart wound dressing, besides imparting anti‐infective characteristics in a nonconventional fashion, it is also essential to imbibe multifunctional attributes like excessive biofluid drainage, easy‐to‐peel, optimal gas permeation, etc., for which appropriate material design is a prime requisite. In this work,… Show more

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Cited by 8 publications
(11 citation statements)
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“…A clear shoulder-like broad peak was observed in all the samples in the scattering vector (q) values between 0.03 and 0.07 Å −1 , with the peak value appearing at ≈0.045 Å −1 . [17] These near-identical q values, appearing due to the long-range ordering in the crystalline lamellar repeat of the polymer samples, confirmed similar periodicity in both before and after enzymatically degraded PCL films and fibers. In brief, the enzymatic degradation did not affect the long-range order of the polymer samples; however, WAXS analysis revealed microstructural changes indicating preferential degradation along crystalline planes in PCL films but not in ES fibers.…”
Section: Thermal Analysissupporting
confidence: 63%
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“…A clear shoulder-like broad peak was observed in all the samples in the scattering vector (q) values between 0.03 and 0.07 Å −1 , with the peak value appearing at ≈0.045 Å −1 . [17] These near-identical q values, appearing due to the long-range ordering in the crystalline lamellar repeat of the polymer samples, confirmed similar periodicity in both before and after enzymatically degraded PCL films and fibers. In brief, the enzymatic degradation did not affect the long-range order of the polymer samples; however, WAXS analysis revealed microstructural changes indicating preferential degradation along crystalline planes in PCL films but not in ES fibers.…”
Section: Thermal Analysissupporting
confidence: 63%
“…[13] Electrospun fibers were crafted from 10% solution in chloroform:methanol (3:1) using an electrospinning apparatus (Gauge size: 18, flow rate: 0.2 mL min −1 , rotor spinning speed: 100 rpm, and voltage of 25 kV). [17] The viscosity of this solution was found to be 26 ± 2 mPa.s, as obtained using a Brookfield Rheometer. The as-fabricated films and fibers were vacuum dried in a desiccator for 24 h and sterilized under UV for 1 h, which were stored at room temperature in clean air-tight screw-capped falcons until further use.…”
Section: Methodssupporting
confidence: 56%
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