Design and Characterization of High-Performance Borophene Oxide-Reinforced PLA/PEG Composite Films
Merve Ercan Kalkan, Sema Samatya Yilmaz, Nurseli Görener Erdem, Murat Efgan Ki̇bar, Esra Bi̇lgi̇n Şi̇mşek, Ayşe Aytaç

TL;DR
This paper introduces a new composite film made with borophene oxide that improves strength and water vapor resistance, making it suitable for biomedical and packaging uses.
Contribution
The novel contribution is the synthesis and characterization of borophene oxide-reinforced PLA/PEG composite films with enhanced mechanical and antibacterial properties.
Findings
Adding 0.5 wt% borophene oxide increased tensile strength by 72% to 22.6 MPa.
The Td10 temperature of the composite increased from 310°C to 338°C with low BO content.
Films showed improved antibacterial activity against S. aureus compared to E. coli.
Abstract
Borophene oxide (BO) was synthesized using a modified Hummer method and added at different ratios into a plasticized polylactic acid/polyethylene glycol (PLA/PEG) matrix via a solution-casting technique. Characterization of the produced films for potential packaging applications was carried out through thermal, mechanical, structural, morphological, and antibacterial tests. The addition of 0.5 wt % BO to the plasticized PLA film resulted in an approximately 72% increase in the tensile strength (22.6 MPa). Increasing the BO content decreased the elongation values. In TGA analysis, the Td10 temperature of the PLA/PEG matrix increased from 310 °C to approximately 338 °C with the addition of a low amount of BO. The water vapor barrier of the plasticized PLA films was enhanced with 0.5–0.7 wt % BO addition but diminished at higher BO concentrations. The resulting films exhibited greater…
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Taxonomy
TopicsMXene and MAX Phase Materials · biodegradable polymer synthesis and properties · Organoboron and organosilicon chemistry
