复合数
淀粉
材料科学
接触角
极限抗拉强度
聚合
聚合物
复合材料
微观结构
化学工程
化学
有机化学
工程类
作者
Hao Xu,Long Chen,Zhenlin Xu,David Julian McClements,Hao Cheng,Chao Qiu,Jie Long,Hangyan Ji,Man Meng,Zhengyu Jin
标识
DOI:10.1016/j.carbpol.2022.120106
摘要
Starch-based packaging materials are being developed to alleviate environmental pollution and greenhouse gas emissions associated with plastic-based ones. However, the high hydrophilicity and poor mechanical properties of pure-starch films limit their widespread application. In this study, dopamine self-polymerization was used as a strategy to improve the performance of starch-based films. Spectroscopy analysis showed that strong hydrogen bonding occurred between polydopamine (PDA) and starch molecules within the composite films, which significantly altered their internal and surface microstructures. The composite films had a greater water contact angle (> 90°), which indicated that the incorporation of PDA reduced their hydrophilicity. Additionally, the elongation at break of the composite films was 11-fold higher than pure-starch films, indicating that PDA improved film flexibility, while the tensile strength decreased to some extent. The composite films also exhibited excellent UV-shielding performance. These high-performance films may have practical applications in food and other industries as biodegradable packaging materials.
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