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Photo-Healable Fabrics: Achieving Structural Control via Photochemical Solid–Liquid Transitions of Polystyrene/Azobenzene-Containing Polymer Blends

Yi‐Fan Chen, Mengru Huang, Yen-Shen Hsu, Ming-Hsuan Chang, Tse‐Yu Lo, Bhaskarchand Gautam, Hsun‐Hao Hsu, Jiun‐Tai Chen

2024ACS Applied Materials & Interfaces14 citationsDOIOpen Access PDF

Abstract

High Resolution Image Download MS PowerPoint Slide While polymer fabrics are integral to a wide range of applications, their vulnerability to mechanical damage limits their sustainability and practicality. Addressing this challenge, our study introduces a versatile strategy to develop photohealable fabrics, utilizing a composite of polystyrene (PS) and an azobenzene-containing polymer (PAzo). This combination leverages the structural stability of PS to compensate for the mechanical weaknesses of PAzo, forming the fiber structures. Key to our approach is the reversible trans - cis photoisomerization of azobenzene groups within the PAzo under UV light exposure, enabling controlled morphological alterations in the PS/PAzo blend fibers. The transition of PAzo sections from a solid to a liquid state at a low glass transition temperature ( T g ∼ 13.7 °C) is followed by solidification under visible light, thus stabilizing the altered fiber structures. In this study, we explore various PS/PAzo blend ratios to optimize surface roughness and mechanical properties. Additionally, we demonstrate the capability of these fibers for photoinduced self-healing. When damaged fabrics are clamped and subjected to UV irradiation for 20 min and pressed for 24 h, the mobility of the cis -form PAzo sections facilitates healing while retaining the overall fabric structure. This innovative approach not only addresses the critical issue of durability in polymer fabrics but also offers a sustainable and practical solution, paving the way for its application in smart clothing and advanced fabric-based materials.

Topics & Concepts

Materials scienceAzobenzenePhotoisomerizationPolystyrenePolymerComposite materialSmart polymerComposite numberChemical engineeringIsomerizationOrganic chemistryCatalysisChemistryEngineeringPolymer composites and self-healingAdvanced Sensor and Energy Harvesting MaterialsPolydiacetylene-based materials and applications
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