复合数
材料科学
罗丹明B
复合材料
复合薄膜
环境污染
降级(电信)
单宁酸
阿布茨
功能群
化学工程
可见光谱
生物降解
纳米技术
电磁屏蔽
薄膜
DPPH
危险废物
作者
Xuanxuan Huang,J Q Yang,Rui Huang,Tao Sun,Luo Y,Zhanjun Wu
标识
DOI:10.1021/acsapm.5c03891
摘要
The widespread use of petroleum-based plastics has caused severe pollution to global ecosystems. Therefore, the development of sustainable and biodegradable eco-friendly materials is urgently needed. This study successfully prepared a multifunctional composite film (PVA-FA/TA) by introducing functional folic acid (FA) and tannic acid (TA) into poly(vinyl alcohol) (PVA) via hydrogen bonding cross-linking. Results indicate that the PVA-FA/TA4 composite film exhibits shielding efficiencies of 99.998 and 100% against UVA and UVB radiation, respectively, while maintaining high transparency in the visible spectrum. Furthermore, the composite film demonstrates remarkable free radical scavenging capabilities, achieving maximum DPPH and ABTS radical scavenging rates of 94.27 and 95.29%, respectively. Moreover, the PVA-FA/TA composite film demonstrated significant antibacterial effects against both Escherichia coli and Staphylococcus aureus. Beyond functional advantages, the PVA-FA/TA composite films are recyclable and reusable, reducing resource waste. Most importantly, complete degradation occurs within 100 days when discarded in soil, further mitigating environmental pollution. Overall, this study provides a feasible and scalable approach for designing next-generation functional film materials with comprehensive protective capabilities.
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