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Synergistic Effect of Silk Fibroin/Chlorogenic Acid/Citric Acid on Anti-ultraviolet and Antibacterial Properties of Cotton Fabric Cover

Synergistic Effect of Silk Fibroin/Chlorogenic Acid/Citric Acid on Anti-ultraviolet and Antibacterial Properties of Cotton Fabric

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Open Access
|Mar 2024

References

  1. Li Yi, Yang Jianzhong, Guo Changsheng. Research Status and Development Trends of Cotton Fiber. <em>Journal of Chengdu Textile College</em>[J]. 2016; 33(2): 174–177+185.
  2. Chen Li. Research progress in cotton modification technology. <em>Modern Textile Technology</em>[J]. 2006; (6): 50–52.
  3. Zhang Jianxiang, Ren Jizhong, Tian Lili, et al. Anti-ultraviolet compound finishing of cotton fabrics. <em>Printing and Dyeing</em>[J]. 2010; 36(10): 29–31.
  4. Lin YanPing. Properties of viscose fibers finished by silk fibroin. <em>Wool Textile Journal</em>[J]. 2017; 8(45): 55–57.
  5. Yin Lihua, Mou Xing, Yu Zhanhai, et al. Research development in preparation of silk fibroin and its composite scaffolds. Materials Reports[J]. 2013; 27(17): 110–112.
  6. Zhang Chao, Zhang YaoPeng, Shao HuiLi, et al. Hybrid silk fibers dryspun from regenerated silk fibroin/graphene oxide aqueous solution. ACS Applied Materials Interfaces[J]. 2016; 8(5): 3349–3358.
  7. Li ZeHao, Wang Li, Dai Honglian, et al. Fabrication characterization and in vitro evaluation of biomimetic silk fibroin porous scaffolds via supercritical CO<sub>2</sub> technology. The Journal of Supercritical Fluids[J]. 2019; 150: 86–93.
  8. Xu Zongpu, Shi Liyang, Yang Mingying, et al. Preparation and biomedical applications of silk fibroin nanoparticles composites with enhanced properties. Materials Science and Engineering C[J]. 2019; 95: 302–311.
  9. Ma Yan, Li Zhi, Ran Ruilong, et al. Research on Application of silk in biomaterial field[J]. Materials Review[J]. 2018; 3(1): 86–94.
  10. Sun Shasha, Tang Rencheng. Adsorption and UV protection properties of extract from lonicera japonica thunb on nylon. <em>Printing and Dyeing</em>[J]. 2009; 22: 4–8.
  11. LI Jie, Wang Xueting, Wu Yinpin, et al. Research Progress on Extraction Methods of Chlorogenic Acid from Honeysuckle. <em>Anhui Agricultural Sciences</em>[J]. 2014; 42(16): 4969–4970+4973.
  12. Tajik Narges, Tajik Mahboubeh, Mack Isabelle, et al. The potential effects of chlorogenic acid, the main phenolic components in coffee, on health: a comprehensive review of the literature. <em>European journal of nutrition</em>[J]. 2017; 56(7): 2215–2244.
  13. Yang Qiongying. Preparation of filin protein/chitosan microsphere and its finishing on cotton fabric. <em>Shanghai Textile Science &amp; Technology</em>[J]. 2023; 51(2): 12–15.
  14. Lin Hong, Yao Lirong, Chen Yuyue, et al. Structure and Properties of Silk Fibroin Modified Cotton, <em>Fibers and Polymers</em>[J]. 2008; 9(2): 113–120.
  15. Xu Yunhui, Li Jifeng, Wang Yunxia, et al. Structure and properties of cotton fabric by amide modification of silk fibroin. <em>Journal of Textile Research</em>[J]. 2017; 38(2): 135–139.
  16. Tao Wei, Li Mingzhong, Zhao Chunxia. Structure and properties of regenerated antheraea pernyi silk fibroin in aqueous solution. <em>Biological Macromolecules</em>[J]. 2006; (11): 1–7.
DOI: https://doi.org/10.2478/ftee-2024-0009 | Journal eISSN: 2300-7354 | Journal ISSN: 1230-3666
Language: English
Page range: 76 - 82
Published on: Mar 21, 2024
Published by: Sciendo
In partnership with: Paradigm Publishing Services
Publication frequency: 6 times per year

© 2024 Minghui Xiao, Wei Zhang, published by Sciendo
This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 3.0 License.