聚氨酯
材料科学
单体
石油化工
环境友好型
异氰酸酯
化学工程
复合数
抗剪强度(土壤)
聚合物
香兰素酸
高分子化学
纳米材料
织物
复合材料
有机化学
机械强度
木质素磺酸盐
化学改性
生物高聚物
聚酯纤维
生物降解
粘附
产量(工程)
热塑性聚氨酯
混合材料
石墨烯
过程(计算)
危险废物
耐化学性
作者
Xuan Zhou,Rongzhi Li,Hongxiao Wang,Minggui Shen,Fei Fu,Qiaoguang Li,He Liu,Xu Xu,Zhanqian Song
出处
期刊:Macromolecules
[American Chemical Society]
日期:2026-03-13
卷期号:59 (6): 3629-3641
标识
DOI:10.1021/acs.macromol.6c00027
摘要
To address the limitations of traditional waterborne two-component polyurethane (2k-WPU) in terms of water resistance, mechanical strength, and adhesion, this study developed an all-biobased composite material (WPU-VF) using a dual covalent cross-linking strategy. A lignin-derived benzoxazine monomer (VF) was synthesized from vanillic acid and furfurylamine and introduced into 2k -WPU to form a rigid aromatic network through ring-opening polymerization. This improved the material’s mechanical properties (tensile strength: 28 MPa), hydrophobicity (contact angle: 101°), and wet adhesion (only a 13% loss of shear strength after soaking). The material also exhibited rapid self-healing ability (10 min at 140 °C), triple shape memory performance, and recyclability (92.8% strength retention after two cycles). Notably, WPU-VF-0.3 completely degraded within 2 h under mild alkaline conditions, complying with the principles of the circular economy. The waterborne process minimized the emission of volatile organic compounds (VOCs). This sustainable design provides a high-performance, recyclable, and degradable polymer solution, which is expected to be applied in the fields of environmentally friendly coatings, food packaging materials, and smart adhesives, reducing dependence on petrochemical products and waste accumulation.
科研通智能强力驱动
Strongly Powered by AbleSci AI